Research outputs: Prof. Ifor Samuel

  1. Preconcentration techniques for trace explosive sensing DOI
    Ross N. Gillanders, James M. E. Glackin, Janja Filipi, Nikola Kezic, Ifor D W. Samuel and Graham A. Turnbull, Science of the Total Environment, 658, p. 650-658 (2019)
  2. Hole delocalization as a driving force for charge pair dissociation in organic photovoltaics DOI
    Andrew B. Matheson, Arvydas Ruseckas, Scott J. Pearson and Ifor D. W. Samuel, Materials Horizons, Advance Article (2019)
  3. Correction DOI
    Amlan K. Pal, Simonas Krotkus, Mattia Fontani, Campbell F. R. Mackenzie, David B. Cordes, Alexandra M. Z. Slawin, Ifor D. W. Samuel and Eli Zysman-Colman, Advanced Materials, 30, 51 (2018)
  4. Monothiatruxene-based, solution-processed green, sky-blue, and deep-blue organic light-emitting diodes with efficiencies beyond 5% limit DOI
    Michal R. Maciejczyk, Shuyu Zhang, Gordon J. Hedley, Neil Robertson, Ifor D. W. Samuel and Marek Pietraszkiewicz, Advanced Functional Materials, Early View (2018)
  5. High efficiency deep blue-emitting organic light emitting diodes based on iridium(III) carbene complexes DOI
    Amlan K. Pal, Simonas Krotkus, Mattia Fontani, Campbell F. R. Mackenzie, David B. Cordes, Alexandra M. Z. Slawin, Ifor D. W. Samuel and Eli Zysman-Colman, Advanced Materials, 30, 50 (2018)
  6. Tuning the exciton diffusion coefficient of polyfluorene based semiconducting polymers DOI
    Muhammad T. Sajjad, Alexander J. Ward, Arvydas Ruseckas, Ashu K. Bansal, Sybille Allard, Ullrich Scherf and Ifor D. W. Samuel, Physica Status Solidi - Rapid Research Letters, Early View (2018)
  7. An investigation of the role acceptor side chains play in the processibility and efficiency of organic solar cells fabricated from small molecular donors featuring 3,4-ethylenedioxythiophene cores DOI
    Natalie Mica, S. A. J. Almahmoud, Lethy Krishnan Jagadamma, G. Cooke and Ifor David William Samuel, RSC Advances, 8, 69 , p. 39231-39240 (2018)
  8. Transfer-printed micro-LED and polymer-based transceiver for visible light communications DOI
    Katherine Rae, Pavlos Manousiadis, Mohamed Islim , Liang Yin, Jose Carreira, Jonathan McKendry, Benoit Guihabert, Ifor David William Samuel, Graham Alexander Turnbull, Nicolas Laurand et al., Optics Express, 26, 24 , p. 31474-31483 (2018)
  9. Deep blue oxadiazole-containing thermally activated delayed fluorescence emitters for organic light-emitting diodes DOI
    Michael Yin Wong, Simonas Krotkus, Graeme Copley, Wenbo Li, Caroline Murawski, David Hall, Gordon Hedley, Marie Jaricot, David B. Cordes, Alexandra M. Z. Slawin et al., Applied Materials & Interfaces, In press (2018)
  10. Influence of perfluorinated ionomer in PEDOT:PSS on the rectification and degradation of organic photovoltaic cells DOI
    Calvyn T. Howells, Sueda Saylan, Haeri Kim, Khalid Marbou, Tetsua Aoyama, Aiko Nakao, Masanobu Uchiyama, Ifor D. W. Samuel, Dong Wook Kim, Marcus S. Dahlem et al., Journal of Materials Chemistry A, 6, 33 , p. 16012-16028 (2018)
  11. Electron mobility of non-fullerene acceptors using a time of flight method DOI
    Natalie A. Mica, Stuart A. J. Thomson and Ifor D. W. Samuel, Organic Electronics, In press (2018)
  12. Current status of outdoor lifetime testing of organic photovoltaics DOI
    Yiwei Zhang, Ifor D. W. Samuel, Tao Wang and David G. Lidzey, Advanced Science, 5, 8 (2018)
  13. Effect of fullerene acceptor on the performance of solar cells based on PffBT4T-2OD DOI
    Yiwei Zhang, Andrew J. Parnell, Oskar Blaszczyk, Andrew J. Musser, Ifor D.W. Samuel, David G. Lidzey and Gabriel Bernardo, Physical Chemistry Chemical Physics, 20, 28 , p. 19023-19029 (2018)
  14. Probing the structure-property-composition relationship in organic-inorganic tri-halide perovskites DOI
    Julia L. Payne, Chengsheng Ni, Jonathon R. Harwell, Lethy Krishnan Jagadamma, Calum McDonald, Davide Mariotti, Ifor D. W. Samuel and John T. S. Irvine, Physical Chemistry Chemical Physics, In press (2018)
  15. (Deep) blue through-space conjugated TADF emitters based on [2.2]paracyclophanes DOI
    Eduard Spuling, Nidhi Sharma, Ifor Samuel, Eli Zysman-Colman and Stefan Bräse, Chemical Communications, In press (2018)
  16. pH-Induced transformation of ligated Au25 to brighter Au23 nanoclusters DOI
    Magdalena Waszkielewicz, Joanna Olesiak-Banska, Clothilde Comby-Zerbino, Franck Bertorelle, Xavier Dagany, Ashu K. Bansal, Muhammad T. Sajjad, Ifor D. W. Samuel, Zeljka Sanader, Miroslawa Rozycka et al., Nanoscale, 10, 24 , p. 11335-11341 (2018)
  17. The role of metallic dopants in improving the thermal stability of the electron transport layer in organic light-emitting diodes DOI
    Chang-Min Keum, Nils Michael Kronenberg, Caroline Murawski, Kou Yoshida, Yali Deng, Cordelia Berz, Wenbo Li, Mengjie Wei, Ifor D. W. Samuel and Malte C. Gather, Advanced Optical Materials, Early View (2018)
  18. Role of lattice distortion and A site cation in the phase transitions of methylammonium lead halide perovskites DOI
    Jonathon R. Harwell, Julia L. Payne, Muhammad T. Sajjad, Frank J. L. Heutz, Daniel M. Dawson, Pamela S. Whitfield, John T. S. Irvine, Ifor D. W. Samuel and Michael A. Carpenter, Physical Review Materials, 2, 6 (2018)
  19. Engineered exciton diffusion length enhances device efficiency in small molecule photovoltaics DOI
    Muhammad T. Sajjad, Oskar Blaszczyk, Lethy Krishnan Jagadamma, Thomas Roland, Mithun Chowdhury, Arvydas Ruseckas and Ifor D. W. Samuel, Journal of Materials Chemistry A, 6, 20 , p. 9445-9450 (2018)
  20. Hot-Hole cooling controls the initial ultrafast relaxation in methylammonium lead iodide perovskite DOI
    Gordon James Hedley, C Quarti, Jonathon Robert Harwell, O Prezhdo, D Beljonne and Ifor David William Samuel, Scientific Reports, 8 (2018)
  21. 20-1: Invited paper: Towards deep-blue materials with efficient triplet harvesting DOI
    Simonas Krotkus, Michael Y. Wong, Gordon Hedley, Marie Jaricot, David B. Cordes, Alexandra M. Z. Slawin, Caroline Murawski, Malte C. Gather, Yoann Olivier, David Beljonne et al., SID Symposium Digest of Technical Papers, 49, 1 , p. 239-242 (2018)
  22. Flexible and ultra-lightweight polymer membrane lasers DOI
    Markus Karl, James M. E. Glackin, Marcel Schubert, Nils M. Kronenberg, Graham A. Turnbull, Ifor D. W. Samuel and Malte C. Gather, Nature Communications (2018)
  23. Morphological, chemical, and electronic changes of the conjugated polymer PTB7 with thermal annealing DOI
    Victoria Savikhin, Lethy K. Jagadamma, Lafe J. Purvis, Iain Robertson, Stefan D. Oosterhout, Christopher J. Douglas, Ifor D. W. Samuel and Michael F. Toney, iScience, 2, p. 182-192 (2018)
  24. Exciton-polaron interactions in polyfluorene films with β phase DOI
    F Montilla, Arvydas Ruseckas and Ifor David William Samuel, Journal of Physical Chemistry C (2018)
  25. Carbon‐bridged p‐phenylenevinylene polymer for high‐performance solution‐processed distributed feedback lasers DOI
    Marta Morales‐Vidal, José A. Quintana, José M. Villalvilla, Pedro G. Boj, Hiroki Nishioka, Hayato Tsuji, Eiichi Nakamura, Guy L. Whitworth, Graham A. Turnbull, Ifor D. W. Samuel et al., Advanced Optical Materials, Early View (2018)
  26. An organic vortex laser DOI
    Daan Stellinga, Monika Pietrzyk, James Michael Edward Glackin, Yue Wang, Ashu Kumar Bansal, Graham Alexander Turnbull, Kishan Dholakia, Ifor David William Samuel and T Krauss, ACS Nano, 12, 3 , p. 2389-2394 (2018)
  27. Ultra-wide coverage VLC system with alignment-free receiver DOI
    Crisanto Quintana, Hyunchae Chun, Rahmat Mulyawan, Grahame Faulkner, Steve Collins, Dominic C. O'Brien, Enyuan Xie, Jonathan J.D. McKendry, Erdan Gu, Martin D. Dawson et al., 2018-January, p. 1-4 (2018)
  28. CuSCN nanowires as electrodes for p-type quantum dot sensitized solar cells DOI
    Muhammad Tariq Sajjad, Jinhyung Park, Dorian Gaboriau, Jonathon R. Harwell, Fabrice Odobel, Peter Reiss, Ifor D. W. Samuel and Dmitry Aldakov, Journal of Physical Chemistry C, 122, 9 , p. 5161-5170 (2018)
  29. Ormosil-coated conjugated polymers for the detection of explosives in aqueous environments DOI
    Ross N. Gillanders, Iain A. Campbell, James M. E. Glackin, Ifor D. W. Samuel and Graham Alexander Turnbull, Talanta, 179, p. 426-429 (2018)
  30. Real-time observation of conformational switching in single conjugated polymer chains DOI
    Francisco Tenopala Carmona, Stephanie Fronk, Guillermo C. Bazan, Ifor David William Samuel and Juan Carlos Penedo-Esteiro, Science Advances, 4, 2 (2018)
  31. Flexible glass hybridized colloidal quantum dots for Gb/s visible light communications DOI
    C. Foucher, Mohamed Islim Sufyan, B. Guilhabert, S. Videv, S. Rajbhandari, A. Gomez Diaz, H. Chun, Chiranthika Dimali Amarasinghe Vithanage, Graham Alexander Turnbull, Ifor David William Samuel et al., IEEE Photonics Journal, 10, 1 (2018)
  32. Strong coupling in a microcavity containing β-carotene DOI
    Richard T. Grant, Rahul Jayaprakash, David M Coles, Andrew Musser, Simone De Liberato, Ifor D.W. Samuel, Graham A. Turnbull, Jenny Clark and David G. Lidzey, Optics Express, 26, 3 , p. 3320-3327 (2018)
  33. Advances in optical sensing of explosive vapours DOI
    Ross Neil Gillanders, Ifor David William Samuel, Graham Alexander Turnbull, Iain Angus Campbell and James Michael Edward Glackin, p. 323-327 (2018)
  34. Time-resolved studies of energy transfer in thin films of green and red fluorescent proteins DOI
    Joanna M. Zajac, Marcel Schubert, Thomas Roland, Changmin Keum, Ifor D. W. Samuel and Malte C. Gather, Advanced Functional Materials, Early View (2018)
  35. Improved efficiency of PbS quantum dot sensitized NiO photocathodes with naphthalene diimide electron acceptor bound to the surface of the nanocrystals DOI
    Mahfoudh Raissi, Muhammad T. Sajjad, Yoann Farré, Thomas J. Roland, Arvydas Ruseckas, Ifor D. W. Samuel and Fabrice Odobel, Solar Energy Materials and Solar Cells, 181, p. 71-76 (2018)
  36. Colloidal nanocrystals DOI
    Ifor David William Samuel, Nature Materials, 17, p. 9-10 (2018)
  37. Combined ultramicrotomy and atomic force microscopy study of the structure of a bulk heterojunction in polymer solar cells DOI
    A. M. Alekseev, A. Al-Afeef, G. J. Hedley, S. S. Kharintsev, A. E. Efimov, A. T. Yedrisov, N. A. Dyuzhev and I. D. W. Samuel, Semiconductors, 52, 1 , p. 105-111 (2018)
  38. Novel 4,8-benzobisthiazole copolymers and their field-effect transistor and photovoltaic applications DOI
    Gary Conboy, Rupert G. D. Taylor, Neil J. Findlay, Alexander L. Kanibolotsky, Anto R. Inigo, Sanjay S. Ghosh, Bernd Ebenhoch, Lethy Krishnan Jagadamma, Gopala Krishna V. V. Thalluri, Muhammad T. Sajjad et al., Journal of Materials Chemistry, 5, 45 , p. 11927-11936 (2017)
  39. Air exposure induced recombination in PTB7:PC71BM solar cells DOI
    Stuart A. J. Thomson, Stephen C. Hogg, Ifor D. W. Samuel and David J. Keeble, Journal of Materials Chemistry A, 5, 41 , p. 21926-21935 (2017)
  40. Size dependence of efficiency of PbS quantum dots in NiO-based dye sensitised solar cells and mechanistic charge transfer investigation DOI
    Mahfoudh Raissi, Muhammad Tariq Sajjad, Yann Pellegrin, Thomas Jean Roland, Stephane Jobic, Mohammed Boujtita, Arvydas Ruseckas, Ifor D. W. Samuel and Fabrice Odobel, Nanoscale, 9, 40 , p. 15566-15575 (2017)
  41. Charge separation and triplet exciton formation pathways in small molecule solar cells as studied by time-resolved EPR spectroscopy DOI
    Stuart Thomson, Jens Niklas, Kirsty Lynn Mardis, Christopher Mallares, Ifor D. W. Samuel and Oleg G. Poluektov, Journal of Physical Chemistry C, 121, 41 , p. 22707-22719 (2017)
  42. Near-infrared fluorescence of silicon phthalocyanine carboxylate esters DOI
    Amlan K. Pal, Shinto Varghese, David B. Cordes, Alexandra M. Z. Slawin, Ifor D. W. Samuel and Eli Zysman-Colman, Scientific Reports, 7 (2017)
  43. Polymer colour converter with very high modulation bandwidth for visible light communications DOI
    D. A. Vithanage, A. L. Kanibolotsky, S. Rajbhandari,, P. P. Manousiadis, M. T. Sajjad, H. Chun, G. Faulkner, D. C. O'Brien, P. J. Skabara, I. D. W. Samuel et al., Journal of Materials Chemistry C, 5, 35 , p. 8916-8920 (2017)
  44. Green perovskite distributed feedback lasers DOI
    Jonathon Robert Harwell, Guy Luke Whitworth, Graham Alexander Turnbull and Ifor David William Samuel, Scientific Reports, 7 (2017)
  45. Intermolecular states in organic dye dispersions DOI
    A. J. Musser, Sai Kiran Rajendran, K. Georgiou, L. Gai, R. T. Grant, Z. Shen, M. Cavazzini, Arvydas Ruseckas, Graham Alexander Turnbull, Ifor David William Samuel et al., Journal of Materials Chemistry C, 5, 33 , p. 8380-8389 (2017)
  46. Emergent properties of an organic semiconductor driven by its molecular chirality DOI
    Ying Yang, Beth Rice, Xingyuan Shi, Jochen R Brandt, Rosenildo Correa da Costa, Gordon J Hedley, Detlef-M Smilgies, Jarvist M Frost, Ifor D W Samuel, Alberto Otero-de-la-Roza et al., ACS Nano, 11, 8 , p. 8329-8338 (2017)
  47. Charge carrier localised in zero-dimensional (CH3NH3)3Bi219 clusters DOI
    Chengsheng Ni, Gordon James Hedley, Julia Louise Payne, Vladimir Svrcek, Calum McDonald, Lethy Krishnan Jagadamma, Paul Edwards, Robert Martin, Gunisha Jain, Darragh Carolan et al., Nature Communications, 8 (2017)
  48. Correlating photovoltaic properties of PTB7-Th:PC71BM blend to photophysics and microstructure as a function of thermal annealing DOI
    Lethy Krishnan Jagadamma, Muhammad Tariq Sajjad, Victoria Savikhin , Michael Toney and Ifor D. W. Samuel, Journal of Materials Chemistry A, 5, 28 , p. 14646-14657 (2017)
  49. Barrierless slow dissociation of photogenerated charge pairs in high-performance polymer-fullerene solar cells DOI
    Dimali A. Vithanage, Andrew B. Matheson, Vytenis Pranculis, Gordon J. Hedley, Scott J. Pearson, Vidmantas Gulbinas, Ifor D. W. Samuel and Arvydas Ruseckas, Journal of Physical Chemistry C, 121, 26 , p. 14060-14065 (2017)
  50. Blue-to-green emitting neutral Ir(III) complexes bearing pentafluorosulfanyl groups DOI
    Amlan Kumar Pal, Adam Francis Henwood, David Bradford Cordes, Alexandra Martha Zoya Slawin, Ifor David William Samuel and Eli Zysman-Colman, Inorganic Chemistry, 56, 13 , p. 7533-7544 (2017)
  51. A low-cost, portable optical explosive-vapour sensor DOI
    Ross N. Gillanders, Ifor D. W. Samuel and Graham A. Turnbull, Sensors and Actuators B: Chemical, 245, p. 334-340 (2017)
  52. Effect of annealing on exciton diffusion in a high performance small molecule organic photovoltaic material DOI
    Yun Long, Gordon James Hedley, Arvydas Ruseckas, Mithun Chowdhury, Thomas Jean Roland, Luis Serrano, Graeme Cooke and Ifor David William Samuel, Applied Materials & Interfaces, 9, 17 , p. 14945-14952 (2017)
  53. Influence of optical material properties on strong coupling in organic semiconductor based microcavities DOI
    Laura Christine Tropf, Christof Peter Dietrich, Stefanie Herbst, Alexander L. Kanibolotsky, Peter J. Skabara, Frank Würthner, Ifor D. W. Samuel, Malte C. Gather and Sven Höfling, Applied Physics Letters, 110, 15 (2017)
  54. Exciton diffusion length and charge extraction yield in organic bilayer solar cells DOI
    Bernhard Siegmund, Muhammad Tariq Sajjad, Johannes Widmer, Debdutta Ray, Christian Koerner, Moritz Riede, Karl Leo, Ifor David William Samuel and Koen Vandewal, Advanced Materials, 29, 12 (2017)
  55. Ultrafast Electronic Energy Transfer in an orthogonal molecular dyad DOI
    Christian Wiebeler, Felix Plasser, Gordon J. Hedley, Arvydas Ruseckas, Ifor D. W. Samuel and Stefan Schumacher, Journal of Physical Chemistry Letters, 8, 5 , p. 1086-1092 (2017)
  56. Single cell induced optical confinement in biological lasers DOI
    M. Karl, C. P. Dietrich, M. Schubert, I. D. W. Samuel, G. A. Turnbull and M. C. Gather, Journal of Physics D : Applied Physics, 50, 8 (2017)
  57. MIMO visible light communications using a wide field-of-view fluorescent concentrator DOI
    Rahmat Mulyawan, Hyunchae Chun, Ariel Gomez, Sujan Rajbhandari, Grahame Faulkner, Pavlos P. Manousiadis, Dimali A. Vithanage, Graham A. Turnbull, Ifor D W Samuel, Stephen Collins et al., IEEE Photonics Technology Letters, 29, 3 , p. 306-309 (2017)
  58. An investigation of the energy levels within a common perovskite solar cell device and a comparison of DC/AC surface photovoltage spectroscopy Kelvin Probe measurements of different MAPBI3 perovskite solar cell device structures DOI
    Susanna E. Challinger, Iain D. Baikie, Jonathon R. Harwell, Graham A. Turnbull and Ifor D.W. Samuel, RSC Advances, 2, 21-22 , p. 1195-1201 (2017)
  59. Light harvesting for organic photovoltaics DOI
    Gordon James Hedley, Arvydas Ruseckas and Ifor David William Samuel, Chemical Reviews, 117, 2 , p. 796-837 (2017)
  60. A saturated red color converter for visible light communication using a blend of star-shaped organic semiconductors DOI
    Muhammad Tariq Sajjad, Pavlos Manousiadis, Clara Orofino, Alexander Kanibolotsky, Neil Findlay, Sujan Rajbhandari, Chiranthika Dimali Amarasinghe Vithanage, Hyunchun Chun, Graham Faulkner, Dominic O'Brien et al., Applied Physics Letters, 110, 1 (2017)
  61. Tuning crystalline ordering by annealing and additives to study its effect on exciton diffusion in a polyalkylthiophene copolymer DOI
    Mithun Chowdhury, Muhammad Tariq Sajjad, Victoria Savikhin, Noemie Hergue, Karina Sutija, Stefan Oosterhout, Michael F Toney, Philippe Dubois, Arvydas Ruseckas and Ifor David William Samuel, Physical Chemistry Chemical Physics, 19, p. 12441-12451 (2017)
  62. Exploring the self-assembly and energy transfer of dynamic supramolecular iridium-porphyrin systems DOI
    Diego Rota Martir, Gordon J. Hedley, David B. Cordes, Alexandra M. Z. Slawin, Daniel Escudero, Denis Jacquemin, Tamara Kosikova, Douglas Philp, Daniel M. Dawson, Sharon E. Ashbrook et al., Dalton Transactions, 45, 43 , p. 17195-17205 (2016)
  63. Organic light-emitting diodes for optogenetic stimulation of Drosophila larvae DOI
    Caroline Murawski, Andrew Morton, Ifor David William Samuel, Stefan Pulver and Malte Christian Gather, : Fourier Transform Spectroscopy (2016)
  64. Synthesis, properties and Light-Emitting Electrochemical Cell (LEEC) device fabrication of cationic Ir(III) complexes bearing electron-withdrawing groups on the cyclometallating ligands DOI
    Amlan Kumar Pal, David Bradford Cordes, Alexandra Martha Zoya Slawin, Cristina Momblona, Enrique Orti, Ifor David William Samuel, Henk Bolink and Eli Zysman-Colman, Inorganic Chemistry, 55, 20 , p. 10361-10376 (2016)
  65. Controlling the emission efficiency of blue-green iridium(III) phosphorescent emitters and applications in solution-processed organic light-emitting diodes DOI
    Muhammad T. Sajjad, Nidhi Sharma, Amlan K. Pal, Kamrul Hasan, Guohua Xie, Lisa S. Kölln, Garry S. Hanan, Ifor D. W. Samuel and Eli Zysman-Colman, Journal of Materials Chemistry, 4, 38 , p. 8939-8946 (2016)
  66. Nanoimprinted distributed feedback lasers of solution processed hybrid perovskites DOI
    Guy L. Whitworth, Jonathan R. Harwell, David N. Miller, Gordon J. Hedley, Wei Zhang, Henry J. Snaith, Graham A. Turnbull and Ifor D. W. Samuel, Optics Express, 24, 21 , p. 23677-23684 (2016)
  67. Self-trapping and excited state absorption in fluorene homo-polymer and copolymers with benzothiadiazole and tri-phenylamine DOI
    Jean-Christophe Denis, Arvydas Ruseckas, Gordon J. Hedley, Andrew B. Matheson, Martin J. Paterson, Graham A. Turnbull, Ifor D. W. Samuel and Ian Galbraith, Physical Chemistry Chemical Physics, 18, 31 , p. 21937-21948 (2016)
  68. Probing the energy levels of perovskite solar cells via Kelvin probe and UV ambient pressure photoemission spectroscopy DOI
    Jonathon Robert Harwell, T. K. Baikie, I. D. Baikie, Julia Louise Payne, Chengsheng Ni, John Thomas Sirr Irvine, Graham A. Turnbull and Ifor David William Samuel, Physical Chemistry Chemical Physics, 18, 29 , p. 19738-19745 (2016)
  69. Wide field of view fluorescent antenna for visible light communications beyond the étendue limit DOI
    Pavlos Manousiadis, Sujan Rajbhandari, Rahmat Mulyawan, Chiranthika Dimali Amarasinghe Vithanage, Hyunchae Chun, Grahame Faulkner, Dominic C O'Brien, Graham Alexander Turnbull, Stephen Collins and Ifor David William Samuel, Optica, 3, 7 , p. 702-706 (2016)
  70. BODIPY star-shaped molecules as solid state colour converters for visible light communications DOI
    Chiranthika Dimali Amarasinghe Vithanage, Pavlos Manousiadis, Muhammad Tariq Sajjad, Sujan Rajbhandari, Hyunchae Chun, Clara Orofino, Diego Cortizo-Lacalle, Alexander Kanibolotsky, Grahame Faulkner, Neil Findlay et al., Applied Physics Letters, 109, 1 (2016)
  71. Optofluidic distributed feedback lasers with evanescent pumping DOI
    Markus Karl, Guy Luke Whitworth, Marcel Schubert, Christof Peter Dietrich, Ifor David William Samuel, Graham A. Turnbull and Malte Christian Gather, Applied Physics Letters, 108, 26 (2016)
  72. Morphology-specific inhibition of β-amyloid aggregates by 17β-hydroxysteroid dehydrogenase type 10 DOI
    Laura Aitken, Steven David Quinn, D. Cibran Perez-Gonzalez, Ifor David William Samuel, J. Carlos Penedo-Esteiro and Francis James Gunn-Moore, ChemBioChem, 17, 11 , p. 1029-1037 (2016)
  73. Effect of a high boiling point additive on the morphology of solution-processed P3HT-fullerene blends DOI
    Yun Long, Alexander J. Ward, Arvydas Ruseckas and Ifor David William Samuel, Synthetic Metals, 216, p. 23-30 (2016)
  74. The influence of blend ratio and processing additive on free carrier yield and mobility in PTB7:PC71BM photovoltaic solar cells DOI
    Vytenis Pranculis, Arvydas Ruseckas, Dimali A. Vithanage, Gordon J Hedley, Ifor D. W. Samuel and Vidmantas Gulbinas, Journal of Physical Chemistry C, 120, 18 , p. 9588-9594 (2016)
  75. Solubilised bright blue-emitting iridium complexes for solution processed OLEDs DOI
    Adam F. Henwood, Ashu K. Bansal, David B. Cordes, Alexandra M. Z. Slawin, Ifor D. W. Samuel and Eli Zysman-Colman, Journal of Materials Chemistry C, 4, 17 , p. 3726-3737 (2016)
  76. Solution-processable silicon phthalocyanines in electroluminescent and photovoltaic devices DOI
    Eli Zysman-Colman, Sanjay Sanatan Ghosh, Guohua Xie, Shinto Varghese, Mithun Chowdhury, Nidhi Sharma, David Bradford Cordes, Alexandra Martha Zoya Slawin and Ifor David William Samuel, Applied Materials & Interfaces, 8, 14 (2016)
  77. Enhanced organic solar cells efficiency through electronic and electro-optic effects resulting from charge transfers in polymer hole transport blends DOI
    Calvyn T. Howells, Khalid Marbou, Haeri Kim, Kwang Jin Lee, Benoît Heinrich, Sang Jun Kim, Aiko Nakao, Tetsua Aoyama, Seiichi Furukawa, Ju Hyung Kim et al., Journal of Materials Chemistry A, 4, 11 , p. 4252-4263 (2016)
  78. A Portable, Low-cost System for Optical Explosive Detection based on a CMOS Camera
    Ross Gillanders, Ifor David William Samuel, Graham Alexander Turnbull and Iain Angus Campbell, 4, p. 132-136 (2016)
  79. Phosphorescence quenching of fac-tris(2-phenylpyridyl)iridium(III) complexes in thin films on dielectric surfaces DOI
    Jean-Charles Ribierre, Arvydas Ruseckas, Sarah V Staton, Kevin Knights, Neil Cumpstey, Paul Burn and Ifor David William Samuel, Physical Chemistry Chemical Physics, 18, 5 , p. 3575-3580 (2016)
  80. Enhancing the photoluminescence quantum yields of blue-emitting cationic iridium(III) complexes bearing bisphosphine ligands DOI
    Diego Rota Martir, Ashu Kumar Bansal, Vincent Di Mascio, David Bradford Cordes, Adam Francis Henwood, Alexandra Martha Zoya Slawin, Paul C J Kamer, Laura Martínez-Sarti, Antonio Pertegás, Henk J. Bolink et al., Inorganic Chemistry Frontiers, 3, 2 , p. 218-235 (2016)
  81. Highly luminescent colloidal CdS quantum dots with efficient near-infrared electroluminescence in light-emitting diodes DOI
    Ashu Kumar Bansal, F Antolini, Shuyue Zhang, L Stroea, L Orlotani, M Lanzi, E Serra, S Allard, U Scherf and Ifor David William Samuel, Journal of Physical Chemistry C, 120, 3 , p. 1871-1880 (2016)
  82. Efficient eco-friendly inverted quantum dot sensitized solar cells DOI
    Jinhyung Park, Muhammad Tariq Sajjad, Pierre-Henri Jouneau, Arvydas Ruseckas, Jérôme Faure-Vincent, Ifor David William Samuel, Peter Reiss and Dmitry Aldakov, Journal of Materials Chemistry A, 4, 3 , p. 827-837 (2016)
  83. Direct observation of intersystem crossing in a thermally activated delayed fluorescence copper complex in the solid state DOI
    Larissa Bergmann, Gordon James Hedley, Thomas Baumann, Stefan Braese and Ifor David William Samuel, Science Advances, 2, 1 (2016)
  84. Measuring and structuring the spatial coherence length of organic light-emitting diodes DOI
    Guohua Xie, Mingzhou Chen, Michael Mazilu, Shuyu Zhang, Ashu Kumar Bansal, Kishan Dholakia and Ifor David William Samuel, Laser & Photonics Reviews, 10, 1 , p. 82-90 (2016)
  85. Synthesis and properties of pteridine-2,4-dione-functionalised oligothiophenes DOI
    Alan A. Wiles, Brian Fitzpatrick, Niall A. McDonald, Mary Margaret Westwater, De-Liang Long, Bernd Ebenhoch, Vincent M. Rotello, Ifor D. W. Samuel and Graeme Cooke, RSC Advances, 6, 10 , p. 7999-8005 (2016)
  86. Ultrafast electronic energy transfer beyond the weak coupling limit in a proximal but orthogonal molecular dyad DOI
    Gordon J. Hedley, Arvydas Ruseckas, Andrew C. Benniston, Anthony Harriman and Ifor D. W. Samuel, Journal of Physical Chemistry A, 119, 51 , p. 12665-12671 (2015)
  87. Wearable organic optoelectronic sensors for medicine DOI
    Ashu K. Bansal, Shuoben Hou, Olena Kulyk, Eric M. Bowman and Ifor D. W. Samuel, Advanced Materials, 27, 46 , p. 7638-7644 (2015)
  88. Development of a handheld fluorescence imaging device to investigate the characteristics of protoporphyrin IX fluorescence in healthy and diseased skin DOI
    Olena Kulyk, Sally Ibbotson, Harry Moseley, Ronan Valentine and Ifor David William Samuel, Photodiagnosis and Photodynamic Therapy, 12, 4 , p. 630-639 (2015)
  89. Unprecedented strongly panchromic absorption from proton switchable iridium(III) azoimidazolate complexes DOI
    Adam Francis Henwood, Yue Hu, Muhammad Tariq Sajjad, Venkata Visveswara Gopala Krishna Thalluri, Sanjay Sanatan Ghosh, David Bradford Cordes, Alexandra Martha Zoya Slawin, Ifor David William Samuel, Neil Robertson and Eli Zysman-Colman, Chemistry - A European Journal, 21, 52 , p. 19128-19135 (2015)
  90. Microstructured organic semiconductors DOI
    Guy L. Whitworth, Pavlos P. Manousiadis, Paulina Morawska, Shuyu Zhang, Graham A. Turnbull and Ifor D. W. Samuel, lasers sensors and visible light communications (2015)
  91. Solvent immersion nanoimprint lithography of fluorescent conjugated polymers DOI
    Guy Luke Whitworth, Shuyu Zhang, James Robert Young Stevenson, Bernd Ebenhoch, Ifor David William Samuel and Graham A. Turnbull, Applied Physics Letters, 107, 16 (2015)
  92. Light-emitting electrochemical cells and solution-processed organic light-emitting diodes using small molecule organic thermally activated delayed fluorescence emitters DOI
    Michael Y. Wong, Gordon James Hedley, Guohua Xie, Lisa Kolln, Ifor David William Samuel, Antonio Pertegás, Henk J. Bolink and Eli Zysman-Colman, Chemistry of Materials, 27, 19 , p. 6535-6542 (2015)
  93. The role of photonics in energy DOI
    Z.H. Kafafi, R.J. Martín-Palma, A.F. Nogueira, D.M. O'Carroll, J.J. Pietron, Ifor David William Samuel, F. So, N. Tansu and L. Tsakalakos, Journal of Photonics for Energy, 5, 1 (2015)
  94. Mercaptophosphonic acids as efficient linkers in quantum dot sensitized solar cells DOI
    D. Aldakov, Muhammad Tariq Sajjad, V. Ivanova, Ashu Kumar Bansal, Jinhyung Park, P. Reiss and Ifor David William Samuel, Journal of Materials Chemistry A, 3, 37 , p. 19050-19060 (2015)
  95. Side-chain influence on the mass density and refractive index of polyfluorenes and star-shaped oligofluorene truxenes DOI
    Paulina Olga Morawska, Yue Wang, Arvydas Ruseckas, C. Orofino-Penia, A.L. Kanibolotsky, R. Santhanagopal, N. Fröhlich, M. Fritsch, Sybille Allard, U. Scherf et al., Journal of Physical Chemistry C, 119, 38 , p. 22102-22107 (2015)
  96. A simple wide field of view concentrator for free space visible light communications DOI
    S. Collins, R. Mulyawan, S. Rajbhandari, H. Chu, G. E. Faulkner, D. C. O'Brien, P. P. Manousiadis, D. A. Vithanage, G. A. Turnbull and I. D W Samuel, p. 43-44 (2015)
  97. Demonstration of 2.3 Gb/s RGB white-light VLC using polymer based colour-converters and GaN micro-LEDs DOI
    Pavlos Manousiadis, Hyunchae Chun, Sujan Rajbhandari, Rahmat Mulyawan, Dimali A. Vithanage, Grahame Faulkner, Dobroslav Tsonev, Jonathan J D McKendry, Muhammad Ijaz, Enyuan Xie et al., p. 222-223 (2015)
  98. Ambulatory photodynamic therapy of skin cancer DOI
    I.D.W. Samuel, O. Kulyk, A. McNeill, H. Moseley, J. Ferguson and S. Ibbotson, Photodiagnosis and Photodynamic Therapy, 12, 3 , p. 331 (2015)
  99. Controlling exciton diffusion and fullerene distribution in photovoltaic blends by side chain modification DOI
    Muhammad Tariq Sajjad, Alexander J. Ward, Christian Kästner, Arvydas Ruseckas, Harald Hoppe and Ifor David William Samuel, Journal of Physical Chemistry Letters, 6, 15 , p. 3054-3060 (2015)
  100. Organic solar cells as high-speed data detectors for visible light communication DOI
    Shuyu Zhang, Dobroslav Tsonev, Stefan Videv, Sanjay Ghosh, Graham A. Turnbull, Ifor D. W. Samuel and Harald Haas, Optica, 2, 7 , p. 607-610 (2015)
  101. Tuning the emission of cationic iridium (III) complexes towards the red through methoxy substitution of the cyclometalating ligand DOI
    Kamrul Hasan, Ashu Kumar Bansal, Ifor David William Samuel, Cristina Roldán-Carmona, Henk Bolink and Eli Zysman-Colman, Scientific Reports, 5 (2015)
  102. Calculation of the emission power distribution of microstructured OLEDs using the reciprocity theorem DOI
    S. Zhang, E.R. Martins, A.G. Diyaf, J.I.B. Wilson, G.A. Turnbull and Ifor David William Samuel, Synthetic Metals, 205, p. 127-133 (2015)
  103. Charge carrier mobility of the organic photovoltaic materials PTB7 and PC71BM and its influence on device performance DOI
    Bernd Ebenhoch, Stuart Alexander James Thomson, Kristijonas Genevicius, Gytis Juska and Ifor David William Samuel, Organic Electronics, 22, p. 62-68 (2015)
  104. Green phosphorescence and electroluminescence of sulfur pentafluoride-functionalized cationic iridium(III) complexes DOI
    Nail Malikovich Shavaleev, Guohua Xie, Shinto Varghese, David Bradford Cordes, Alexandra Martha Zoya Slawin, Cristina Momblona, Enrique Ortí, Henk J. Bolink, Ifor David William Samuel and Eli Zysman-Colman, Inorganic Chemistry, 54, 12 , p. 5907-5914 (2015)
  105. Organic solar cells based on acceptor-functionalized diketopyrrolopyrrole derivatives DOI
    Sanjay Sanatan Ghosh, Luis A. Serrano, Bernd Ebenhoch, Vince Rotello, Graeme Cooke and Ifor David William Samuel, Journal of Photonics for Energy, 5, 1 (2015)
  106. Formylated chloro-bridged iridium(III) dimers as OLED materials DOI
    Michael Y. Wong, Guohua Xie, Clarisse Tourbillon, Martina Sandroni, David Bradford Cordes, Alexandra Martha Zoya Slawin, Ifor David William Samuel and Eli Zysman-Colman, Dalton Transactions, 44, 18 (2015)
  107. Subpicosecond exciton dynamics in polyfluorene films from experiment and microscopic theory DOI
    J.-C. Denis, S. Schumacher, Gordon James Hedley, Arvydas Ruseckas, Paulina Olga Morawska, Yue Wang, S. Allard, U. Scherf, Graham A. Turnbull, Ifor David William Samuel et al., Journal of Physical Chemistry C, 119, 18 , p. 9734-9744 (2015)
  108. Morphology and local electrical properties of PTB7:PC71BM blends DOI
    Alexander Alekseev, Gordon James Hedley, Alaa Al-Afeef, Oleg A. Ageev and Ifor David William Samuel, Journal of Materials Chemistry A, 3, 16 , p. 8706-8714 (2015)
  109. The impact of driving force on electron transfer rates in photovoltaic donor-acceptor blends DOI
    A.J. Ward, A. Ruseckas, M.M. Kareem, B. Ebenhoch, L.A. Serrano, M. Al-Eid, B. Fitzpatrick, V.M. Rotello, G. Cooke and I.D.W. Samuel, Advanced Materials, 27, 15 , p. 2496-2500 (2015)
  110. Solution-processed boron subphthalocyanine derivatives as acceptors for organic bulk-heterojunction solar cells DOI
    B. Ebenhoch, N.B.A. Prasetya, V.M. Rotello, G. Cooke and I.D.W. Samuel, Journal of Materials Chemistry A, 3, 14 , p. 7345-7352 (2015)
  111. Fluorescent red-emitting BODIPY oligofluorene star-shaped molecules as a color converter material for visible light communications DOI
    Muhammad T. Sajjad, Pavlos P. Manousiadis, Clara Orofino, Diego Cortizo-Lacalle, Alexander L. Kanibolotsky, Sujan Rajbhandari, Chiranthika Dimali Amarasinghe Amarasinghe, Hyunchae Chun, Grahame Faulkner, Dominic C. O'Brien et al., Advanced Optical Materials, 3, 4 , p. 536-540 (2015)
  112. Novel fast color-converter for visible light communication using a blend of conjugated polymers DOI
    M.T. Sajjad, P.P. Manousiadis, H. Chun, D.A. Vithanage, S. Rajbhandari, A.L. Kanibolotsky, G. Faulkner, D. Obrien, P.J. Skabara, I.D.W. Samuel et al., ACS Photonics, 2, 2 , p. 194-199 (2015)
  113. Growth of photoluminescent cadmium sulphide quantum dots from soluble single source precursors in solution and in film DOI
    L. Stroea, A.K. Bansal, I.D.W. Samuel, S. Kowalski, S. Allard, U. Scherf, L. Ortolani, S. Cavallini, S. Toffanin and F. Antolini, Science of Advanced Materials, 7, 1 , p. 1-14 (2015)
  114. In situ formation and photo patterning of emissive quantum dots in organic small molecules DOI
    Ashu K Bansal, Muhammad Tariq Sajjad, Francesco Antolini, Lenuta Stroea, Paulius Gecys, Gediminas Raciukaitis, Pascal Andre, Andreas Hirzer, Volker Schmidt, Luca Ortolani et al., Nanoscale (2015)
  115. Palladium(0) NHC complexes DOI
    Adam Francis Henwood, Mathieu Lesieur, Ashu Kumar Bansal, Vincent Lemaur, David Beljonne, David G. Thompson, Duncan Graham, Alexandra Martha Zoya Slawin, Ifor David William Samuel, Catherine S.J. Cazin et al., Chemical Science, 6, p. 3248-3261 (2015)
  116. Solution processable diketopyrrolopyrrole (DPP) cored small molecules with BODIPY end groups as novel donors for organic solar cells DOI
    Diego Cortizo-Lacalle, Calvyn T. Howells, Upendra K. Pandey, Joseph Cameron, Neil J. Findlay, Anto Regis Inigo, Tell Tuttle, Peter J. Skabara and Ifor D. W. Samuel, Beilstein Journal of Organic Chemistry, 10, p. 2683-2695 (2014)
  117. Visible light communication using a blue GaN mu LED and fluorescent polymer color converter DOI
    Hyunchae Chun, Pavlos Manousiadis, Sujan Rajbhandari, Dimali A. Vithanage, Grahame Faulkner, Dobroslav Tsonev, Jonathan James Donald McKendry, Stefan Videv, Enyuan Xie, Erdan Gu et al., IEEE Photonics Technology Letters, 26, 20 , p. 2035-2038 (2014)
  118. The phosphorylation of Hsp20 enhances its association with amyloid-β to increase protection against neuronal cell death DOI
    Ryan T Cameron, Steven D Quinn, Lynn S Cairns, Ruth MacLeod, Ifor D W Samuel, Brian O Smith, Carlos Penedo and George S Baillie, Molecular and Cellular Neuroscience, 61, p. 46-55 (2014)
  119. Solution-processed pentathiophene dendrimer based photodetectors for digital cameras DOI
    A. K. Pandey, K. D. Johnstone, P. L. Burn and I. D. W. Samuel, Sensors and Actuators B: Chemical, 196, p. 245-251 (2014)
  120. Photophysical and structural characterisation of in situ formed quantum dots DOI
    A. K. Bansal, F. Antolini, M. T. Sajjad, L. Stroea, R. Mazzaro, S. G. Ramkumar, K. -J. Kass, S. Allard, U. Scherf and I. D. W. Samuel, Physical Chemistry Chemical Physics, 16, 20 , p. 9556-9564 (2014)
  121. Systematic study of exciton diffusion length in organic semiconductors by six experimental methods DOI
    Jason D. A. Lin, Oleksandr V. Mikhnenko, Jingrun Chen, Mohammad Khairul Zarifi Haji Masri, Arvydas Ruseckas, Alexander Mikhailovsky, Reilly P. Raab, Jianhua Liu, Paul W. M. Blom, Maria Antonietta Loi et al., Materials horizons, 1, 2 , p. 280-285 (2014)
  122. Highly directional emission and beam steering from organic light-emitting diodes with a substrate diffractive optical element DOI
    Shuyu Zhang, Graham A. Turnbull and Ifor David William Samuel, Advanced Optical Materials, EarlyView (2014)
  123. Real-time probing of β-amyloid self-assembly and inhibition using fluorescence self-quenching between neighbouring dyes DOI
    Steven David Quinn, Paul Allan Dalgarno, Ryan T Cameron, Gordon James Hedley, Christian Hacker, John Milton Lucocq, Ifor David William Samuel and Carlos Penedo, Molecular BioSystems, 10, 1 , p. 34-44 (2014)
  124. Determining the optimum morphology in high-performance polymer-fullerene organic photovoltaic cells DOI
    Gordon James Hedley, Alexander J Ward, Alexander Alekseev, Calvyn Travis Howells, Emiliano Rezende Martins, Luis A Serrano, Graeme Cooke, Arvydas Ruseckas and Ifor David William Samuel, Nature Communications, 4 (2013)
  125. Charge pair dissociation and recombination dynamics in a P3HT–PC60BM bulk heterojunction DOI
    Andrew Barclay Matheson, Scott James Pearson, Arvydas Ruseckas and Ifor David William Samuel, Journal of Physical Chemistry Letters, 4, 23 , p. 4166 (2013)
  126. Enhancing the emission directionality of organic light-emitting diodes by using photonic microstructures DOI
    Shuyu Zhang, Graham A. Turnbull and Ifor David William Samuel, Applied Physics Letters, 103 (2013)
  127. Silver nanowires enhance absorption of poly(3-hexylthiophene) DOI
    Karolina Smolarek, Bernd Ebenhoch, Nikodem Czechowski, Aneta Prymaczek, Magdalena Twardowska, Ifor D. W. Samuel and Sebastian Mackowski, Applied Physics Letters, 103, 20 (2013)
  128. LED pumped polymer laser sensor for explosives DOI
    Y. Wang, P.O. Morawska, A.L. Kanibolotsky, P.J. Skabara, G.A. Turnbull and I.D.W. Samuel, Laser & Photonics Reviews, 7, 6 (2013)
  129. Micro-LED pumped polymer laser DOI
    Johannes Herrnsdorf, Yue Wang, Jonathan J. D. McKendry, Zheng Gong, David Massoubre, Benoit Guilhabert, Georgios Tsiminis, Graham A. Turnbull, Ifor D. W. Samuel, Nicolas Laurand et al., Laser & Photonics Reviews, 7, 6 , p. 1065-1078 (2013)
  130. Molecular weight dependence of exciton diffusion in poly(3-hexylthiophene) DOI
    Mohammad Khairul Zarifi Haji Masri, Arvydas Ruseckas, Evguenia V. Emelianova, Linjun Wang, Ashu K. Bansal, Andrew Matheson, Henrik T. Lemke, Martin M. Nielsen, Ha Nguyen, Olivier Coulembier et al., Advanced Energy Materials, 3, 11 , p. 1445-1453 (2013)
  131. Absorption cross-sections of hole polarons in glassy and beta-phase polyfluorene DOI
    Francisco Montilla, Arvydas Ruseckas and Ifor David William Samuel, Chemical Physics Letters, 585, p. 133-137 (2013)
  132. Low-threshold nanoimprinted lasers using substructured gratings for control of distributed feedback DOI
    Emiliano Rezende Martins, Yue Wang, Alexander L. Kanibolotsky, Peter J. Skabara, Graham A. Turnbull and Ifor David William Samuel, Advanced Optical Materials, 1, 8 , p. 563-566 (2013)
  133. Engineering the Nanoscale Morphology of a Quantum Dot-Fullerene Assembly via Complementary Hydrogen Bonding Interactions DOI
    Vikas Nandwana, Luis A. Serrano, Kyril M. Solntsev, Bernd Ebenhoch, Qian Liu, Gulen Y. Tonga, Ifor D. W. Samuel, Graeme Cooke and Vincent M. Rotello, Langmuir, 29, 24 , p. 7534-7537 (2013)
  134. Nanoimprinted polymer lasers with threshold below 100 W/cm2 using mixed-order distributed feedback resonators DOI
    Yue Wang, Georgios Tsiminis, Alexander L. Kanibolotsky, Peter J. Skabara, Ifor David William Samuel and Graham A. Turnbull, Optics Express, 21, 12 , p. 14362-14367 (2013)
  135. Nanoimprinted Organic Semiconductor Laser Pumped by a Light-Emitting Diode DOI
    Georgios Tsiminis, Yue Wang, A L Kanibolotsky, A R Inigo, P J Skabara, Ifor David William Samuel and Graham A. Turnbull, Advanced Materials, 25, 20 , p. 2826-2830 (2013)
  136. Aromatic stacking interactions in flavin model systems DOI
    Vikas Nandwana, Ifor David William Samuel, Graeme Cooke and Vincent M. Rotello, Accounts of Chemical Research, 46, 4 , p. 1000-1009 (2013)
  137. Single-molecule chemical denaturation of riboswitches DOI
    Paul Allan Dalgarno, J Bordello, Rhodri Morris, P St-Pierre, A. Dubé, Ifor David William Samuel, Daniel Lafontaine and Carlos Penedo, Nucleic Acids Research, 41, 7 , p. 4253-4265 (2013)
  138. Highly photo- and electroluminescent 1,3-diketonate Eu(III) complexes with spiro-fluorene-xantphos dioxide ligands DOI
    Marek Pietraszkiewicz, Michal Maciejczyk, Ifor David William Samuel and Shuyu Zhang, Journal of Materials Chemistry C, 1, 8028 (2013)
  139. Solution-Based Single Molecule Imaging of Surface-Immobilized Conjugated Polymers DOI
    Paul Allan Dalgarno, Christopher A Traina, Carlos Penedo, Gui Bazan and Ifor David William Samuel, Journal of the American Chemical Society, 135, 19 (2013)
  140. Highly efficient solution-processable europium-complex based organic light-emitting diodes DOI
    Shuyu Zhang, Graham A. Turnbull and Ifor D. W. Samuel, Organic Electronics, 13, 12 , p. 3091-3096 (2012)
  141. A Shift from Diffusion Assisted to Energy Transfer Controlled Fluorescence Quenching in Polymer-Fullerene Photovoltaic Blends DOI
    Alexander J. Ward, Arvydas Ruseckas and Ifor D. W. Samuel, Journal of Physical Chemistry C, 116, 45 , p. 23931-23937 (2012)
  142. Laser characteristics of a family of benzene-cored star-shaped oligofluorenes DOI
    Georgios Tsiminis, Neil A. Montgomery, Alexander L. Kanibolotsky, Arvydas Ruseckas, Igor F. Perepichka, Peter J. Skabara, Graham A. Turnbull and Ifor D. W. Samuel, Semiconductor Science and Technology, 27, 9 (2012)
  143. Poly(dendrimers) with Phosphorescent Iridium(III) Complex-Based Side Chains Prepared via Ring-Opening Metathesis Polymerization DOI
    Wen-Yong Lai, Michael N. Balfour, Jack W. Levell, Ashu K. Bonsal, Paul L. Burn, Shih-Chun Lo and Ifor D. W. Samuel, Macromolecules, 45, 7 , p. 2963-2971 (2012)
  144. High power efficiency phosphorescent poly(dendrimer) OLEDs DOI
    J. W. Levell, S. Zhang, W. -Y. Lai, S. -C. Lo, P. L. Burn and I. D. W. Samuel, Optics Express, 20, 6 (2012)
  145. Control of Efficiency, Brightness, and Recombination Zone in Light-Emitting Field Effect Transistors DOI
    Ben B. Y. Hsu, Chunhui Duan, Ebinazar B. Namdas, Andrea Gutacker, Jonathan D. Yuen, Fei Huang, Yong Cao, Guillermo C. Bazan, Ifor D. W. Samuel and Alan J. Heeger, Advanced Materials, 24, 9 , p. 1171-1175 (2012)
  146. Carbazole/iridium dendrimer side-chain phosphorescent copolymers for efficient light emitting devices DOI
    Jack W. Levell, Wen-Yong Lai, Robert J. Borthwick, Paul L. Burn, Shih-Chun Lo and Ifor D. W. Samuel, New Journal of Chemistry, 36, 2 , p. 407-413 (2012)
  147. Charge Transport in a Highly Phosphorescent Iridium(III) Complex-Cored Dendrimer with Double Dendrons DOI
    Salvatore Gambino, Shih-Chun Lo, Zehua Liu, Paul L. Burn and Ifor D. W. Samuel, Advanced Functional Materials, 22, 1 , p. 157-165 (2012)
  148. BODIPY-based conjugated polymers for broadband light sensing and harvesting applications DOI
    Diego Cortizo-Lacalle, Calvyn T. Howells, Salvatore Gambino, Filipe Vilela, Zuzana Vobecka, Neil J. Findlay, Anto R. Inigo, Stuart A. J. Thomson, Peter J. Skabara and Ifor D. W. Samuel, Journal of Materials Chemistry, 22, 28 , p. 14119-14126 (2012)
  149. Dynamics of fluorescence depolarisation in star-shaped oligofluorene-truxene molecules DOI
    Neil A. Montgomery, Gordon J. Hedley, Arvydas Ruseckas, Jean-Christophe Denis, Stefan Schumacher, Alexander L. Kanibolotsky, Peter J. Skabara, Ian Galbraith, Graham A. Turnbull and Ifor D. W. Samuel, Physical Chemistry Chemical Physics, 14, 25 , p. 9176-9184 (2012)
  150. Explosive Sensing Using Polymer Lasers DOI
    Yue Wang, Ying Yang, Graham A. Turnbull and Ifor David William Samuel, Molecular Crystals and Liquid Crystals, 554, 1 , p. 103-110 (2012)
  151. Nanoimprinted resonators for polymer lasers pumped by light-emitting diodes DOI
    Graham A. Turnbull, Georgios Tsiminis, Yue Wang, Alexander L. Kanibolotsky, Peter J. Skabara and Ifor D. W. Samuel (2012)
  152. Oligothiophene Cruciform with a Germanium Spiro Center: A Promising Material for Organic Photovoltaics DOI
    Iain A. Wright, Alexander L. Kanibolotsky, Joseph Cameron, Tell Tuttle, Peter J. Skabara, Simon J. Coles, Calvyn T. Howells, Stuart A. J. Thomson, Salvatore Gambino and Ifor D. W. Samuel, Angewandte Chemie International Edition, 51, 19 , p. 4562-4567 (2012)
  153. Strongly Modified Angular Dependence of Emission from OLEDs DOI
    Shuyu Zhang, Graham A. Turnbull and Ifor D. W. Samuel (2012)
  154. The 'double dendron' approach to host free phosphorescent poly(dendrimer) OLEDs DOI
    Wen-Yong Lai, Jack W. Levell, Michael N. Balfour, Paul L. Burn, Shih-Chun Lo and Ifor D. W. Samuel, Journal of Polymer Science Part A: Polymer Chemistry, 3, 3 , p. 734-740 (2012)
  155. Efficient Phosphorescence by Reducing lntrachain Chromophore Interactions in Dendrimer-Containing Polymers DOI
    Jack W. Levell, Wen-Yong Lai, Robert J. Borthwick, Shih-Chun Lo, Paul L. Burn and Ifor D. W. Samuel, Journal of Physical Chemistry C, 115, 51 , p. 25464-25469 (2011)
  156. Ultra-portable explosives sensor based on a CMOS fluorescence lifetime analysis micro-system DOI
    Yue Wang, Bruce R. Rae, Robert K. Henderson, Zheng Gong, Jonathan Mckendry, Erdan Gu, Martin D. Dawson, Graham A. Turnbull and Ifor D. W. Samuel, AIP Advances, 1, 3 (2011)
  157. Iridium (III) complex-based small molecules, dendrimers and poly(dendrimers) for organic light-emitting diodes
    Jack W. Levell, Wen-Yong Lai, Shih-Chun Lo, Paul L. Burn and Ifor D. W. Samuel, Abstracts of Papers of the American Chemical Society, 242 (2011)
  158. Optoelectronic Gate Dielectrics for High Brightness and High-Efficiency Light-Emitting Transistors DOI
    Ebinazar B. Namdas, Ben B. Y. Hsu, Jonathan D. Yuen, Ifor D. W. Samuel and Alan J. Heeger, Advanced Materials, 23, 20 (2011)
  159. Optical Excitations in Star-Shaped Fluorene Molecules DOI
    Neil A. Montgomery, Jean-Christophe Denis, Stefan Schumacher, Arvydas Ruseckas, Peter J. Skabara, Alexander Kanibolotsky, Martin J. Paterson, Ian Galbraith, Graham A. Turnbull and Ifor D. W. Samuel, Journal of Physical Chemistry A, 115, 14 , p. 2913-2919 (2011)
  160. Laser chemosensor with rapid responsivity and inherent memory based on a polymer of intrinsic microporosity DOI
    Yue Wang, Neil B. McKeown, Kadhum J. Msayib, Graham A. Turnbull and Ifor D. W. Samuel, Sensors, 11, 3 , p. 2478-2487 (2011)
  161. Conformational Effects on the Dynamics of Internal Conversion in Boron Dipyrromethene Dyes in Solution DOI
    Gordon J. Hedley, Arvydas Ruseckas, Anthony Harriman and Ifor D. W. Samuel, Angewandte Chemie International Edition, 50, 29 , p. 6634-6637 (2011)
  162. Conjugated polymer sensors for explosive vapor detection DOI
    Yue Wang, Graham A. Turnbull and Ifor D. W. Samuel (2011)
  163. Electronic, redox and charge transport properties of an unusual hybrid structure: a bis(septithiophene) bridged by a fused tetrathiafulvalene (TTF) DOI
    Iain A. Wright, Peter J. Skabara, John C. Forgie, Alexander L. Kanibolotsky, Blanca Gonzalez, Simon J. Coles, Salvatore Gambino and Ifor D. W. Samuel, Journal of Materials Chemistry, 21, 5 , p. 1462-1469 (2011)
  164. Laser action in a surface-structured free-standing membrane based on a pi-conjugated polymer-composite DOI
    Yujie Chen, Johannes Herrnsdorf, Benoit Guilhabert, Alexander L. Kanibolotsky, Allan R. Mackintosh, Yue Wang, Richard A. Pethrick, Erdan Gu, Graham A. Turnbull, Peter J. Skabara et al., Organic Electronics, 12, 1 , p. 62-69 (2011)
  165. Synthesis of hybrid dendritic molecules with diazaphospholidine oxide grafted at the surface of octavinylsilsesquioxane (OVS) DOI
    Ge Cheng, Alexandra M. Z. Slawin, Nicolas R. Vautravers, Pascal Andre, Russell E. Morris, Ifor D. W. Samuel and David Cole-Hamilton, Organic & Biomolecular Chemistry, 9, 4 , p. 1189-1200 (2011)
  166. Fluorescence Enhancement by Symmetry Breaking in a Twisted Triphenylene Derivative DOI
    Jack W. Levell, Arvydas Ruseckas, John B. Henry, Yi Wang, Andrew D. Stretton, Andrew R. Mount, Trent H. Galow and Ifor D. W. Samuel, Journal of Physical Chemistry A, 114, 51 , p. 13291-13295 (2010)
  167. Fluorescence Quenchers in Mixed Phase Polyfluorene Films DOI
    Ashu K. Bansal, Arvydas Ruseckas, Paul E. Shaw and Ifor D. W. Samuel, Journal of Physical Chemistry C, 114, 41 , p. 17864-17867 (2010)
  168. Bipolaron Formation in Organic Solar Cells Observed by Pulsed Electrically Detected Magnetic Resonance DOI
    J. Behrends, A. Schnegg, K. Lips, Elizabeth Alice Thomsen, Ajay K Pandey, Ifor David William Samuel and D. J. Keeble, Physical Review Letters, 105, 17 (2010)
  169. Current-voltage characteristics of dendrimer light-emitting diodes DOI
    S. G. Stevenson, I. D. W. Samuel, S. V. Staton, K. A. Knights, P. L. Burn, J. H. T. Williams and Alison B. Walker, Journal of Physics D : Applied Physics, 43, 38 (2010)
  170. Photo-Rechargeable Battery Effect in First Generation Cationic-Cyanine Dendrimers DOI
    Ajay K. Pandey, Peter C. Deakin, Ross D. Jansen-Van Vuuren, Paul L. Burn and Ifor D. W. Samuel, Advanced Materials, 22, 35 , p. 3954-3958 (2010)
  171. A Phosphorescent Poly(dendrimer) Containing Iridium(III) Complexes: Synthesis and Light-Emitting Properties DOI
    Wen-Yong Lai, Jack W. Levell, Andrew C. Jackson, Shih-Chun Lo, Paul V. Bernhardt, Ifor D. W. Samuel and Paul L. Burn, Macromolecules, 43, 17 , p. 6986-6994 (2010)
  172. Vibrational Energy Flow Controls Internal Conversion in a Transition Metal Complex DOI
    Gordon J. Hedley, Arvydas Ruseckas and Ifor D. W. Samuel, Journal of Physical Chemistry A, 114, 34 , p. 8961-8968 (2010)
  173. A phosphorescent poly(dendrimer) with increased viscosity for solution-processed OLED devices DOI
    Jack W. Levell, Jack P. Gunning, Paul L. Burn, Jeremy Robertson and Ifor D. W. Samuel, Organic Electronics, 11, 9 , p. 1561-1568 (2010)
  174. Sensitive Explosive Vapor Detection with Polyfluorene Lasers DOI
    Ying Yang, Graham A. Turnbull and Ifor David William Samuel, Advanced Functional Materials, 20, 13 , p. 2093-2097 (2010)
  175. Broadly tunable deep blue laser based on a star-shaped oligofluorene truxene DOI
    Yue Wang, Georgios Tsiminis, Ying Yang, Arvydas Ruseckas, Alexander L. Kanibolotsky, Igor F. Perepichka, Peter J. Skabara, Graham A. Turnbull and Ifor David William Samuel, Synthetic Metals, 160, 13-14 , p. 1397-1400 (2010)
  176. The development of poly(dendrimer)s for advanced processing DOI
    Jack P. Gunning, Jack W. Levell, Mark F. Wyatt, Paul L. Burn, Jeremy Robertson and Ifor D. W. Samuel, Journal of Polymer Science Part A: Polymer Chemistry, 1, 5 , p. 730-738 (2010)
  177. Light-emitting dendrimer film morphology: A neutron reflectivity study DOI
    S. V. Vickers, H. Barcena, K. A. Knights, R. K. Thomas, J. -C. Ribierre, S. Gambino, I. D. W. Samuel, P. L. Burn and Giovanna Fragneto, Applied Physics Letters, 96, 26 (2010)
  178. Determining the absorption tolerance of single chromophore photodiodes for machine vision DOI
    R. Jansen van Vuuren, K. D. Johnstone, S. Ratnasingam, H. Barcena, P. C. Deakin, A. K. Pandey, P. L. Burn, S. Collins and I. D. W. Samuel, Applied Physics Letters, 96, 25 (2010)
  179. Dynamics of photoexcitation and stimulated optical emission in conjugated polymers: A multiscale quantum-chemistry and Maxwell-Bloch-equations approach DOI
    Stefan Schumacher, Ian Galbraith, Arvydas Ruseckas, Graham A. Turnbull and Ifor D. W. Samuel, Physical Review. B, Condensed matter and materials physics, 81, 24 (2010)
  180. Synthesis and Electropolymerization of Hexadecyl Functionalized Bithiophene and Thieno[3,2-b]thiophene End-Capped with EDOT and EDTT Units DOI
    Greg J. McEntee, Peter J. Skabara, Filipe Vilela, Steven Tierney, Ifor D. W. Samuel, Salvatore Gambino, Simon J. Coles, Michael B. Hursthouse, Ross W. Harrington and William Clegg, Chemistry of Materials, 22, 9 , p. 3000-3008 (2010)
  181. Comparison of hole mobility in thick and thin films of a conjugated polymer DOI
    Salvatore Gambino, Ashu K. Bansal and Ifor D. W. Samuel, Organic Electronics, 11, 3 , p. 467-471 (2010)
  182. A hybrid organic semiconductor/silicon photodiode for efficient ultraviolet photodetection DOI
    J. W. Levell, M. E. Giardini and I. D. W. Samuel, Optics Express, 18, 4 , p. 3219-3225 (2010)
  183. Thickness dependent absorption spectra in conjugated polymers: Morphology or interference? DOI
    Olivier P. M. Gaudin, Ifor D. W. Samuel, Samia Amriou and Paul L. Burn, Applied Physics Letters, 96, 5 (2010)
  184. Organic light emitting complementary inverters DOI
    Ebinazar B. Namdas, Ifor D. W. Samuel, Deepak Shukla, Dianne M. Meyer, Yanming Sun, Ben B. Y. Hsu, Daniel Moses and Alan J. Heeger, Applied Physics Letters, 96, 4 (2010)
  185. Exciton-Exciton Annihilation in Mixed-Phase Polyfluorene Films DOI
    Paul E. Shaw, Arvydas Ruseckas, Jeffrey Peet, Guillermo C. Bazan and Ifor D. W. Samuel, Advanced Functional Materials, 20, 1 , p. 155-161 (2010)
  186. A versatile gold synthon for acetylene C-H bond activation DOI
    George C. Fortman, Albert Poater, Jack W. Levell, Sylvain Gaillard, Alexandra M. Z. Slawin, Ifor D. W. Samuel, Luigi Cavallo and Steven P. Nolan, Dalton Transactions, 39, 43 , p. 10382-10390 (2010)
  187. Effects of solution processing and thermal annealing on the phosphorescence of iridium(III) complex-cored dendrimer films DOI
    J. C. Ribierre, C. J. Yates, A. Ruseckas, S. V. Staton, P. L. Burn and I. D. W. Samuel, Organic Electronics, 11, 1 , p. 62-66 (2010)
  188. Photophysics of Solution-Processed Transparent Solar Cells Under Top and Bottom Illumination DOI
    Ajay K. Pandey and Ifor D. W. Samuel, IEEE Journal of Selected Topics in Quantum Electronics, 16, 6 , p. 1560-1564 (2010)
  189. Synthesis and characterisation of new diindenodithienothiophene (DITT) based materials DOI
    Irina Afonina, Peter J. Skabara, Filipe Vilela, Alexander L. Kanibolotsky, John C. Forgie, Ashu K. Bansal, Graham A. Turnbull, Ifor D. W. Samuel, John G. Labram, Thomas D. Anthopoulos et al., Journal of Materials Chemistry, 20, 6 , p. 1112-1116 (2010)
  190. Phosphorescent Light-Emitting Transistors DOI
    Ebinazar B. Namdas, Ben B. Y. Hsu, Zehua Liu, Shih-Chun Lo, Paul L. Burn and Ifor D. W. Samuel, Advanced Materials, 21, 48 , p. 4957-4961 (2009)
  191. High-Triplet-Energy Dendrons DOI
    Shih-Chun Lo, Ruth Emma Harding, Christopher P. Shipley, Stuart Graham Stevenson, Paul L. Burn and Ifor David William Samuel, Journal of the American Chemical Society, 131, 46 , p. 16681-16688 (2009)
  192. Semiconducting polymer waveguides for end-fired ultra-fast optical amplifiers DOI
    Ning Liu, Arvydas Ruseckas, Neil A. Montgomery, Ifor D. W. Samuel and Graham A. Turnbull, Optics Express, 17, 24 , p. 21452-21458 (2009)
  193. Singlet energy transfer and singlet-singlet annihilation in light-emitting blends of organic semiconductors DOI
    A. Ruseckas, J. C. Ribierre, P. E. Shaw, S. V. Staton, P. L. Burn and I. D. W. Samuel, Applied Physics Letters, 95, 18 (2009)
  194. Effect of exciton self-trapping and molecular conformation on photophysical properties of oligofluorenes DOI
    Stefan Schumacher, Arvydas Ruseckas, Neil Andrew Montgomery, Peter J. Skabara, Alexander L. Kanibolotsky, Martin J. Paterson, Ian Galbraith, Graham Alexander Turnbull and Ifor David William Samuel, Journal of Chemical Physics, 131, 15 (2009)
  195. Paramagnetic Point Defects and Charge Carriers in PbS and CdS Nanocrystal Polymer Composites DOI
    David J. Keeble, Elizabeth A. Thomsen, Alexandros Stavrinadis, Ifor D. W. Samuel, Jason M. Smith and Andrew A. R. Watt, Journal of Physical Chemistry C, 113, 40 , p. 17306-17312 (2009)
  196. How to recognize lasing DOI
    Ifor D. W. Samuel, Ebinazar B. Namdas and Graham A. Turnbull, Nature Photonics, 3, 10 , p. 546-549 (2009)
  197. Organic Semiconductor Optical Amplifiers DOI
    Dimali Amarasinghe, Arvydas Ruseckas, Graham A. Turnbull and Ifor D. W. Samuel, Proceedings of the IEEE, 97, 9 , p. 1637-1650 (2009)
  198. The Development of Luminescent Concentrators for Pumping Organic Semiconductor Lasers DOI
    Ying Yang, Ifor David William Samuel and Graham A. Turnbull, Advanced Materials, 21, 31 , p. 3205-3209 (2009)
  199. COLL 423-Hybrid organic-inorganic photoluminescent POSS dentritic materials: Chromophore confinement
    Pascal Andre, Ge Cheng, Arvydas Ruseckas, Nicolas Vautravers, Tanja van Mourik, Herbert Fruchtl, Joe A. Crayston, Russell E. Morris, David Cole-Hamilton and Ifor D. W. Samuel, Abstracts of Papers of the American Chemical Society, 238 (2009)
  200. COLL 427-Syntheses of In/InN core/shell nanocolloids
    Pascal Andre, Ge Cheng, Ross A. Blackley, Wuzong Zhou, Ifor D. W. Samuel and David Cole-Hamilton, Abstracts of Papers of the American Chemical Society, 238 (2009)
  201. Chemosensing of 1,4-dinitrobenzene using bisfluorene dendrimer distributed feedback lasers DOI
    S. Richardson, H. S. Barcena, G. A. Turnbull, P. L. Burn and I. D. W. Samuel, Applied Physics Letters, 95, 6 (2009)
  202. Effects of thermal annealing on the photophysical properties of bisfluorene-cored dendrimer films DOI
    J. C. Ribierre, A. Ruseckas, O. P. M. Gaudin, I. D. W. Samuel, H. Barcena, S. V. Staton and P. L. Burn, Organic Electronics, 10, 5 , p. 803-808 (2009)
  203. A study on the preparation and photophysical properties of an iridium(III) complexed homopolymer DOI
    Wen-Yong Lai, Jack W. Levell, Paul L. Burn, Shih-Chun Lo and Ifor D. W. Samuel, Journal of Materials Chemistry, 19, 28 , p. 4952-4959 (2009)
  204. An open pilot study of ambulatory photodynamic therapy using a wearable low-irradiance organic light-emitting diode light source in the treatment of nonmelanoma skin cancer DOI
    S. K. Attili, A. Lesar, A. McNeill, M. Camacho-Lopez, H. Moseley, S. Ibbotson, I. D. W. Samuel and J. Ferguson, British Journal of Dermatology, 161, 1 , p. 170-173 (2009)
  205. A two-photon pumped polyfluorene laser DOI
    Georgios Tsiminis, Arvydas Ruseckas, Ifor D. W. Samuel and Graham A. Turnbull, Applied Physics Letters, 94, 25 (2009)
  206. Low-threshold organic laser based on an oligofluorene truxene with low optical losses DOI
    Georgios Tsiminis, Yue Wang, Paul Edward Shaw, Alexander L. Kanibolotsky, Igor F. Perepichka, Martin D. Dawson, Peter J. Skabara, Graham A. Turnbull and Ifor David William Samuel, Applied Physics Letters, 94, 24 (2009)
  207. Synthesis and lanthanide-sensing behaviour of polyfluorene/1,10-phenanthroline copolymers DOI
    Joanne Ritchie, Arvydas Ruseckas, Pascal Andre, Christian Muenther, Michael Van Ryssen, Daniel E. Vize, Joe A Crayston and Ifor D. W. Samuel, Synthetic Metals, 159, 7-8 , p. 583-588 (2009)
  208. Effect of metal cathode reflectance on the exciton-dissociation efficiency in heterojunction organic solar cells DOI
    Ajay K. Pandey, Paul E. Shaw, Ifor D. W. Samuel and Jean-Michel Nunzi, Applied Physics Letters, 94, 10 (2009)
  209. Control of Charge Transport in Iridium(III) Complex-Cored Carbazole Dendrimers by Generation and Structural Modification DOI
    Salvatore Gambino, Stuart Graham Stevenson, Kevin A. Knights, Paul L. Burn and Ifor David William Samuel, Advanced Functional Materials, 19, 2 , p. 317-323 (2009)
  210. Ultrafast Intersystem Crossing in a Red Phosphorescent Iridium Complex DOI
    Gordon J. Hedley, Arvydas Ruseckas and Ifor D. W. Samuel, Journal of Physical Chemistry A, 113, 1 , p. 2-4 (2009)
  211. High-Gain Broadband Solid-State Optical Amplifier using a Semiconducting Copolymer DOI
    Dimali Amarasinghe, Arvydas Ruseckas, Andreas E. Vasdekis, Graham A. Turnbull and Ifor D. W. Samuel, Advanced Materials, 21, 1 , p. 107-110 (2009)
  212. Probing the nanoscale phase separation in binary photovoltaic blends of poly(3-hexylthiophene) and methanofullerene by energy transfer DOI
    Arvydas Ruseckas, Paul E. Shaw and Ifor D. W. Samuel, Dalton Transactions, 45 , p. 10040-10043 (2009)
  213. The development of phenylethylene dendrons for blue phosphorescent emitters DOI
    Shih-Chun Lo, Ruth E. Harding, Edward Brightman, Paul L. Burn and Ifor D. W. Samuel, Journal of Materials Chemistry, 19, 20 , p. 3213-3227 (2009)
  214. Hybrid dendritic molecules with confined chromophore architecture to tune fluorescence efficiency DOI
    Pascal André, Ge Cheng, Arvydas Ruseckas, Tanja Van Mourik, Herbert Anton Fruchtl, Joseph Alan Crayston, Russell Edward Morris, David John Cole-Hamilton and Ifor David William Samuel, Journal of Physical Chemistry B, 112, 51 , p. 16382-16392 (2008)
  215. Thickness Dependence of the Fluorescence Lifetime in Films of Bisfluorene-Cored Dendrimers DOI
    J. C. Ribierre, A. Ruseckas, P. E. Shaw, H. S. Barcena, P. L. Burn and I. D. W. Samuel, Journal of Physical Chemistry C, 112, 51 , p. 20463-20468 (2008)
  216. Distance dependence of excitation energy transfer between spacer-separated conjugated polymer films DOI
    Paul E. Shaw, Arvydas Ruseckas and Ifor D. W. Samuel, Physical Review. B, Condensed matter and materials physics, 78, 24 (2008)
  217. Solution-Processible Phosphorescent Blue Dendrimers Based on Biphenyl-Dendrons and Fac-tris(phenyltriazolyl)iridium(III) Cores DOI
    Shih-Chun Lo, Raghu Nath Bera, Ruth Emma Harding, Paul L. Burn and Ifor David William Samuel, Advanced Functional Materials, 18, 19 , p. 3080-3090 (2008)
  218. Photoinduced charge separation in poly(1,4-phenylenevinylene) derivatives studied by electron paramagnetic resonance DOI
    E. A. Thomsen, D. J. Keeble, B. Lochab, P. L. Burn, H. El-Mkami and I. D. W. Samuel, Organic Electronics, 9, p. 809-815 (2008)
  219. Exciton diffusion measurements in poly(3-hexylthiophene) DOI
    Paul Edward Shaw, Arvydas Ruseckas and Ifor David William Samuel, Advanced Materials, 20, 18 , p. 3516-3520 (2008)
  220. Iridium metal complexes as an unambiguous probe of intramolecular vibrational redistribution DOI
    Gordon J. Hedley, Arvydas Ruseckas, Zehua Liu, Shih-Chun Lo, Paul L. Burn and Ifor D. W. Samuel, Journal of the American Chemical Society, 130, p. 11842-11843 (2008)
  221. An open pilot study of ambulatory photodynamic therapy using a wearable, low-irradiance, organic LED light source in the treatment of nonmelanoma skin cancer
    S. Attili, A. Cochrane, A. McNeill, M. Camacho-Lopez, H. Moseley, S. Ibbotson, I. Samuel and J. Ferguson, British Journal of Dermatology, 159, p. 130-131 (2008)
  222. Non-radiative decay mechanisms in blue phosphorescent iridium(III) complexes DOI
    Ruth E. Harding, Shih-Chun Lo, Paul L. Burn and Ifor D. W. Samuel, Organic Electronics, 9, p. 377-384 (2008)
  223. Influence of the dendron chemical structure on the photophysical properties of bisfluorene-cored dendrimers DOI
    J. C. Ribierre, A. Ruseckas, I. D. W. Samuel, H. S. Barcena and P. L. Burn, Journal of Chemical Physics, 128 (2008)
  224. Two-photon absorption and lasing in first-generation bisfluorene dendrimers DOI
    Georgios Tsiminis, Jean-Charles Ribierre, Arvydas Ruseckas, Homar S. Barcena, Garry J. Richards, Graham A. Turnbull, Paul L. Burn and Ifor David William Samuel, Advanced Materials, 20, 10 , p. 1940-1944 (2008)
  225. Hybrid optoelectronics DOI
    Y. Yang, Graham A. Turnbull and Ifor David William Samuel, Applied Physics Letters, 92, 16 (2008)
  226. Amplification of optical pulse sequences at a high repetition rate in a polymer slab waveguide (vol 91, art no 011105, 2007) DOI
    D. Amarasinghe, A. Ruseckas, A. E. Vasdekis, G. A. Turnbull and I. D. W. Samuel, Applied Physics Letters, 92 (2008)
  227. Electric field and temperature dependence of the hole mobility in a bis-fluorene cored dendrimer DOI
    S. Gambino, I. D. W. Samuel, H. Barcena and P. L. Burn, Organic Electronics, 9, p. 220-226 (2008)
  228. Quantitative analysis of multi-protein interactions using FRET: Application to the SUMO pathway DOI
    Sarah F. Martin, Michael H. Tatham, Ronald T. Hay and Ifor D. W. Samuel, Protein Science, 17, p. 777-784 (2008)
  229. Picosecond gain switching of an organic semiconductor optical amplifier DOI
    D. Amarasinghe, A. Ruseckas, A. E. Vasdekis, G. A. Turnbull and I. D. W. Samuel, Applied Physics Letters, 92 (2008)
  230. Temperature dependence of the triplet diffusion and quenching rates in films of an Ir(ppy)(3)-cored dendrimer DOI
    J. C. Ribierre, A. Ruseckas, I. D. W. Samuel, S. V. Staton and P. L. Burn, Physical Review. B, Condensed matter and materials physics, 77 (2008)
  231. Triplet exciton diffusion and phosphorescence quenching in Iridium(III)-Centered dendrimers DOI
    J. C. Ribierre, A. Ruseckas, K. Knights, S. V. Staton, N. Cumpstey, P. L. Burn and I. D. W. Samuel, Physical Review Letters, 100, 1 (2008)
  232. Ultrafast luminescence in Ir(ppy)3 DOI
    Gordon James Hedley, Arvydas Ruseckas and Ifor David William Samuel, Chemical Physics Letters, 450, 4-6 , p. 292-296 (2008)
  233. A rapid route to carbazole containing dendrons and phosphorescent dendrimers DOI
    Kevin A. Knights, Stuart G. Stevenson, Christopher P. Shipley, Shih-Chun Lo, Seth Olsen, Ruth E. Harding, Salvatore Gambino, Paul L. Burn and Ifor D. W. Samuel, Journal of Materials Chemistry, 18, p. 2121-2130 (2008)
  234. An organic semiconductor laser on silicon - art. no. 699606 DOI
    A. E. Vasdekis, S. A. Moore, A. Ruseckas, T. F. Krauss, I. D. W. Samuel and G. A. Turnbull, : Proceeding of SPIE - The International Society for Optical Engineering, p. 99606-99606 (2008)
  235. Apparatus and method for obtaining an image of a fluorescent pattern under ambient light
    Ifor David William Samuel and Mario Ettore Giardini (2008)
  236. Light-emitting diode pumped polymer lasers - art. no. 70511E DOI
    G. A. Turnbull, Y. Yang, P. Shaw, A. Ruseckas and I. D. W. Samuel, : Proceeding of SPIE - The International Society for Optical Engineering (2008)
  237. Improved operational lifetime of semiconducting polymer lasers by encapsulation DOI
    S. Richardson, O. P. M. Gaudin, G. A. Turnbull and I. D. W. Samuel, Applied Physics Letters, 91 (2007)
  238. Electronically asymmetric poly(1,4-phenylenevinylene)s for photovoltaic cells DOI
    Bimlesh Lochab, Paul L. Burn, Aaron Barkhouse, Kiril R. Kirov, Hazel E. Assender, David J. Keeble, Elizabeth A. Thomsen, Andrew J. Lewis and Ifor D. W. Samuel, Organic Electronics, 8, p. 801-812 (2007)
  239. Wavelength conversion from silica to polymer optical fibre communication wavelengths via ultrafast optical gain switching in a distributed feedback polymer laser DOI
    Ruidong Xia, Cora Cheung, Arvydas Ruseckas, Dimali Amarasinghe, Ifor D. W. Samuel and Donal D. C. Bradley, Advanced Materials, 19, 22 (2007)
  240. Effect of generation and soft lithography on semiconducting dendrimer lasers DOI
    Justin R. Lawrence, Ebinazar B. Namdas, Gary J. Richards, Paul L. Burn and Ifor D. W. Samuel, Advanced Materials, 19, 19 , p. 3000-3003 (2007)
  241. Amplified spontaneous emission and lasing properties of bisfluorene-cored dendrimers DOI
    J. C. Ribierre, G. Tsiminis, S. Richardson, G. A. Turnbull and I. D. W. Samuel, Applied Physics Letters, 91, p. 081108 (2007)
  242. Measuring and controlling exciton diffusion in organic semiconductors
    Ifor D. W. Samuel, Abstracts of Papers of the American Chemical Society, 234 (2007)
  243. POLY 620-Phosphorescent dendrimers: Efficient solution-processed OLED materials
    J. C. Ribierre, A. Ruseckas, K. R. Knights, S. V. Staton, Paul L. Burn and Ifor D. W. Samuel, Abstracts of Papers of the American Chemical Society, 234 (2007)
  244. Light fantastic
    Ifor Samuel, Materials World, 15, p. 28-30 (2007)
  245. Silicon based organic semiconductor laser DOI
    A. E. Vasdekis, S. A. Moore, A. Ruseckas, T. F. Krauss, I. D. W. Samuel and G. A. Turnbull, Applied Physics Letters, 91 (2007)
  246. Amplification of optical pulse sequences at a high repetition rate in a polymer slab waveguide DOI
    D. Amarasinghe, A. Ruseckas, A. E. Vasdekis, G. A. Turnbull and I. D. W. Samuel, Applied Physics Letters, 91, p. 011105 (2007)
  247. The development of light-emitting dendrimers for displays DOI
    Paul L. Burn, Shih-Chun Lo and Ifor D. W. Samuel, Advanced Materials, 19, 13 , p. 1675-1688 (2007)
  248. Optimization of the luminescence efficiencies in solution-processed phosphorescent dendrimers DOI
    Jean-Charles Ribierre, Stuart G. Stevenson, Ifor D. W. Samuel, Sarah V. Staton and Paul L. Burn, JOURNAL OF DISPLAY TECHNOLOGY, 3, p. 233-237 (2007)
  249. Highly branched phosphorescent dendrimers for efficient solution-processed organic light-emitting diodes DOI
    Raghu N. Bera, Neil Cumpstey, Paul L. Burn and Ifor D. W. Samuel, Advanced Functional Materials, 17, p. 1149-1152 (2007)
  250. Fluorescence spectroscopy of an in vitro model of human cervical precancer identifies neoplastic phenotype. DOI
    SF Martin, AD Wood, M McRobbie, M Mazilu, Michael Peter Macdonald, Ifor David William Samuel and Charles Simon Herrington, International Journal of Cancer, 120, 9 , p. 1964-1970 (2007)
  251. Fluidic fibre dye lasers DOI
    A E Vasdekis, G E Town, Graham Alexander Turnbull and Ifor David William Samuel, Optics Express, 15, p. 3962 (2007)
  252. A fluorescence-resonance-energy-transfer-based protease activity assay and its use to monitor paralog-specific small ubiquitin-like modifier processing DOI
    Sarah F. Martin, Nell Hattersley, Ifor D. W. Samuel, Ronald T. Hay and Michael H. Tatham, Analytical Biochemistry, 363, p. 83-90 (2007)
  253. Organic semiconductor lasers DOI
    Ifor David William Samuel and Graham Alexander Turnbull, Chemical Reviews, 107, p. 1272-1295 (2007)
  254. A silicon based organic semiconductor laser
    A E Vasdekis, S A Moore, A Ruseckas, Thomas Fraser Krauss, Ifor David William Samuel and Graham Alexander Turnbull, Applied Physics Letters, 91, p. 051124 (2007)
  255. Diode pumped polymer lasers - art. no. 66550W DOI
    G. A. Turnbull, A. E. Vasdekis, G. Tsiminis and I. D. W. Samuel, : Proceeding of SPIE - The International Society for Optical Engineering (2007)
  256. Recent Advances in Polymer Lasers and Optical Amplifiers
    A. E. Vasdekis, G. Tsiminis, D. Amarasinghe, A. Ruseckas, M. Goossens, Liam O'Faolain, T. F. Krauss, G. A. Turnbull and I. D. W. Samuel, p. 574-575 (2007)
  257. Shrinking polymer lasers - art. no. 671304 DOI
    I. D. W. Samuel, A. E. Vasdekis, G. Tsiminis and G. A. Turnbull, : Proceeding of SPIE - The International Society for Optical Engineering, p. 71304-71304 (2007)
  258. Solution processable phosphorescent rhenium(I) dendrimers DOI
    Yong-Jin Pu, Ruth E. Harding, Stuart G. Stevenson, Ebinazar B. Namdas, Christine Tedeschi, Jonathan P. J. Markham, Richard J. Rummings, Paul L. Burn and Ifor D. W. Samuel, Journal of Materials Chemistry, 17, p. 4255-4264 (2007)
  259. Tuned light emission from nanoparticles of cadmium chalcogenides and nanostructures in indium nitride DOI
    Ge Cheng, Pascal Andre, Andrea V. Firth, Pawan K. Khanna, Wuzong Zhou, Ifor D. W. Samuel and David J. Cole-Hamilton, Synthesis and Reactivity in Inorganic, Metal-Organic, and Nano-Metal Chemistry, 37, 5 , p. 309-313 (2007)
  260. Singlet exciton diffusion in MEH-PPV films studied by exciton-exciton annihilation DOI
    A. J. Lewis, A. Ruseckas, O. P. M. Gaudin, G. R. Webster, P. L. Burn and I. D. W. Samuel, Organic Electronics, 7, p. 452-456 (2006)
  261. Broadband solid state optical amplifier based on a semiconducting polymer DOI
    D. Amarasinghe, A. Ruseckas, A. E. Vasdekis, M. Goossens, G. A. Turnbull and I. D. W. Samuel, Applied Physics Letters, 89 (2006)
  262. Blue phosphorescence from iridium(III) complexes at room temperature DOI
    Shih-Chun Lo, Christopher P. Shipley, Raghu N. Bera, Ruth E. Harding, Andrew R. Cowley, Paul L. Burn and Ifor D. W. Samuel, Chemistry of Materials, 18, p. 5119-5129 (2006)
  263. Diode Pumped Distributed Bragg Reflector Lasers Based on a Dye-to-Polymer Energy Transfer Blend DOI
    A E Vasdekis, G Tsiminis, J-C Ribierre, L O’Faolain, Thomas Fraser Krauss, Graham Alexander Turnbull and Ifor David William Samuel, Optics Express, 14, p. 9211-9216 (2006)
  264. ORGN 375-Ordered nanoporous scaffolds via self-assembling organic building blocks
    Trent H. Galow, Andrew D. Stretton, Ifor D. W. Samuel and Olivier P. M. Gaudin, Abstracts of Papers of the American Chemical Society, 232 (2006)
  265. The equilibration of intrachain and interchain excitations in aggregates of a cyano-substituted phenylene vinylene polymer DOI
    Paul F. Miller, Melanie M. de Souza, Stephen C. Moratti, Andrew B. Holmes, Ifor D. W. Samuel and Garry Rumbles, Polymer International, 55, p. 784-792 (2006)
  266. Surface plasmon-polariton mediated emission from phosphorescent dendrimer light-emitting diodes DOI
    C J Yates, I D W Samuel, P L Burn, S Wedge and W L Barnes, Applied Physics Letters, 88 (2006)
  267. Ambulatory photodynamic therapy: a new concept in delivering photodynamic therapy DOI
    H Moseley, John Walter Allen, S Ibbotson, A Lesar, A McNeill, M A Camacho-Lopez, Ifor David William Samuel, J Ferguson and Wilson Sibbett, British Journal of Dermatology, 154, 4 , p. 747-750 (2006)
  268. The synthesis and properties of iridium cored dendrimers with carbazole dendrons DOI
    S C Lo, E B Namdas, C P Shipley, J P J Markham, T D Anthopolous, P L Burn and I D W Samuel, Organic Electronics, 7, p. 85-98 (2006)
  269. Ambulatory PDT: Preliminary results
    H Moseley, J W Allen, I D W Samuel, W Sibbett and J Ferguson, Lasers in Surgery and Medicine, p. 29-29 (2006)
  270. Effect of meta-linkages on the photoluminescence and electroluminescence properties of light-emitting polyfluorene alternating copolymers DOI
    J Ritchie, J A Crayston, J P J Markham and I D W Samuel, Journal of Materials Chemistry, 16, p. 1651-1656 (2006)
  271. Exciton annihilation and diffusion in semiconducting polymers DOI
    P. E. Shaw, A. J. Lewis, A. Ruseckas and I. D. W. Samuel (2006)
  272. Exciton self-trapping in MEH-PPV films studied by ultrafast emission depolarization DOI
    A Ruseckas and I D W Samuel, p. 263-266 (2006)
  273. Organic Optical Amplifier based on conjugated polymer MEH-PPV
    D Amarasinghe, A Ruseckas, A E Vasdekis, M Goossens, Graham Alexander Turnbull and Ifor David William Samuel, Applied Physics Letters, 89, p. 201119 (2006)
  274. Phosphorescent iridium(III) cored dendrimers for light-emitting displays - art. no. 63330H DOI
    J. -C. Ribierre, S. V. Staton, P. L. Bum and I. D. W. Samuel (2006)
  275. The pH-dependent conformational transition of beta-lactoglobulin modulates the binding of protoporphyrin IX DOI
    F Tian, K Johnson, A E Lesar, H Moseley, J Ferguson, I D W Samuel, A Mazzini and L Brancaleon, Biochimica et Biophysica Acta - General Subjects, 1760, p. 38-46 (2006)
  276. Investigating the effect of steric crowding in phosphorescent dendrimers DOI
    N Cumpstey, R N Bera, P L Burn and I D W Samuel, Macromolecules, 38, p. 9564-9570 (2005)
  277. Effect of gain localization in circular-grating distributed feedback lasers DOI
    G A Turnbull, A Carleton, A Tahraouhi, T F Krauss, I D W Samuel, G F Barlow and K A Shore, Applied Physics Letters, 87 (2005)
  278. Light out-coupling efficiencies of organic light-emitting diode structures and the effect of photoluminescence quantum yield DOI
    L H Smith, J A E Wasey, I D W Samuel and W L Barnes, Advanced Functional Materials, 15, p. 1839-1844 (2005)
  279. A light-blue phosphorescent dendrimer for efficient solution-processed light-emitting diodes DOI
    S C Lo, G J Richards, J P J Markham, E B Namdas, S Sharma, P L Burn and I D W Samuel, Advanced Functional Materials, 15, p. 1451-1458 (2005)
  280. Novel diffractive feedback structures for semiconducting polymer lasers DOI
    AE Vasdekis, Graham Alexander Turnbull, Ifor David William Samuel and GE Town, 5937 (2005)
  281. Ultrafast depolarization of the fluorescence in a conjugated polymer DOI
    A Ruseckas, P Wood, I D W Samuel, G R Webster, W J Mitchell, P L Burn and V Sundstrom, Physical Review. B, Condensed matter and materials physics, 72 (2005)
  282. Encapsulated cores: host-free organic light-emitting diodes based on solution-processible electrophosphorescent dendrimers DOI
    S.-C. Lo, T D Anthopoulos, E B Namdas, P L Burn and Ifor David William Samuel, Advanced Materials, 17, 16 , p. 1945-1948 (2005)
  283. Discrete hopping model of exciton transport in disordered media DOI
    V M Burlakov, K Kawata, H E Assender, G A D Briggs, A Ruseckas and I D W Samuel, Physical Review. B, Condensed matter and materials physics, 72 (2005)
  284. Influence of grating characteristics on the operation of circular-grating distributed-feedback polymer lasers DOI
    G A Turnbull, A Carleton, G F Barlow, A Tahraouhi, T F Krauss, K A Shore and I D W Samuel, Journal of Applied Physics, 98, 2 (2005)
  285. Description of exciton transport in a TiO2/MEH-PPV heterojunction photovoltaic material DOI
    K Kawata, V M Burlakov, M J Carey, H E Assender, G A D Briggs, A Ruseckas and I D W Samuel, Solar Energy Materials and Solar Cells, 87, 1-4 , p. 715-724 (2005)
  286. Low threshold edge emitting polymer distributed feedback laser based on a square lattice DOI
    A E Vasdekis, G A Turnbull, I D W Samuel, P Andrew and W L Barnes, Applied Physics Letters, 86, 16 , p. 161102 (2005)
  287. Simple color tuning of phosphorescent dendrimer light emitting diodes DOI
    E B Namdas, T D Anthopoulos, I D W Samuel, M J Frampton, S C Lo and P L Burn, Applied Physics Letters, 86 (2005)
  288. Triplet exciton diffusion in fac-tris(2-phenylpyridine) iridium(III)-cored electroluminescent dendrimers DOI
    E B Namdas, A Ruseckas, I D W Samuel, S C Lo and P L Burn, Applied Physics Letters, 86 (2005)
  289. Effect of gain localisation in circular-grating distributed feedback lasers
    Graham Alexander Turnbull, A Carleton, GF Barlow, A Tahraouhi, Thomas Fraser Krauss, KA Shore and Ifor David William Samuel, Applied Physics Letters, 87, p. 201101 (2005)
  290. Invited paper: Dendrimers: Efficient solution-processed phosphorescent OLED materials
    T. D. Anthopoulos, E. B. Namdas, A. Ruseckas, I. D. W. Samuel, S. -C. Lo and P. L. Burn, p. 4-7 (2005)
  291. Semiconducting Polymer Optical Amplifiers
    M Goossens, G Heliotis, Graham Alexander Turnbull, A Ruseckas, J R Lawrence, R Xia, D D C Bradley and Ifor David William Samuel, p. 593706 (2005)
  292. Operating characteristics of a travelling-wave semiconducting polymer optical amplifier DOI
    G Heliotis, DDC Bradley, M Goossens, S Richardson, Graham Alexander Turnbull and Ifor David William Samuel, Applied Physics Letters, 85, p. 6122-6124 (2004)
  293. Two-dimensional distributed feedback lasers using a broadband, red polyfluorene gain medium DOI
    G Heliotis, R Xia, D D C Bradley, G A Turnbull, I D W Samuel, P Andrew and W L Barnes, Journal of Applied Physics, 96, 12 , p. 6959-6965 (2004)
  294. Design and analysis of a low-threshold polymer circular-grating distributed-feedback laser
    GF Barlow, KA Shore, Graham Alexander Turnbull and Ifor David William Samuel, Journal of the Optical Society of America B : Optical Physics, B21, p. 2142-2150 (2004)
  295. Optical spectroscopy of long polyenes DOI
    R L Christensen, A Faksh, J A Meyers, I D W Samuel, P Wood, R R Schrock and K C Hultzsch, Journal of Physical Chemistry A, 108, p. 8229-8236 (2004)
  296. Production and luminescent properties of CdSe and CdS nanoparticlepolymer composites DOI
    Andrea V Firth, Stephen W Haggata, Pawan K Khanna, Stuart J Williams, John Walter Allen, Steven W Magennis, Ifor David William Samuel and David John Cole-Hamilton, Journal of Luminescence, 109, 3-4 , p. 163-172 (2004)
  297. Tuning of emission color for blue dendrimer blend light-emitting diodes DOI
    J P J Markham, E B Namdas, T D Anthopoulos, I D W Samuel, G J Richards and P L Burn, Applied Physics Letters, 85, 9 , p. 1463-1465 (2004)
  298. Sub-picosecond pulses from a gain-switched polymer distributed feedback laser DOI
    M Goossens, A Ruseckas, Graham Alexander Turnbull and Ifor David William Samuel, 85 (2004)
  299. Laser Physics: Fantastic Plastic DOI
    Ifor David William Samuel, Nature, 429, 17 Jan , p. 709-711 (2004)
  300. Time-dependence of erbium(III) tris(8-hydroxyquinolate) near-infrared photoluminescence: implications for organic light-emitting diode efficiency (vol 138, pg 463, 2003) DOI
    S W Magennis, A J Ferguson, T Bryden, T S Jone, A Beeby and I D W Samuel, Synthetic Metals, 143, p. 251-251 (2004)
  301. Characterization of the photoproducts of protoporphyrin IX bound to human serum albumin and immunoglobulin G DOI
    L Brancaleon, SW Magennis, Ifor David William Samuel, E Namdas, A Lesar and H Moseley, Biophysical Chemistry, 109, p. 351-360 (2004)
  302. Optical amplification in a first-generation dendritic organic semiconductor
    J R Lawrence, G A Turnbull, I D W Samuel, G J Richards and P L Burn, Optics Letters, 29, p. 869-871 (2004)
  303. Solution-processable red phosphorescent dendrimers for light-emitting device applications DOI
    TD Anthopoulos, MJ Frampton, EB Namdas, PL Burn and Ifor David William Samuel, 16 (2004)
  304. Relating the physical structure and optical properties of conjugated polymers using neutron reflectivity in combination with photoluminescence spectroscopy DOI
    William J Mitchell, Paul L Burn, Robert K Thomas, Giovanna Fragneto, Jonathan PJ Markham and Ifor David William Samuel, Journal of Applied Physics, 95, 5 , p. 2391-2396 (2004)
  305. Photophysics of fac-tris(2-phenylpyridine) iridium(III) cored electroluminescent dendrimers in solution and films DOI
    EB Namdas, A Ruseckas, Ifor David William Samuel, SC Lo and PL Burn, Journal of Physical Chemistry B, 108, 5 , p. 1570-1577 (2004)
  306. Charge transport in highly efficient iridium cored electrophosphorescent dendrimers DOI
    JPJ Markham, Ifor David William Samuel, SC Lo, PL Burn, M Weiter and H Bassler, Journal of Applied Physics, 95, 2 , p. 438-445 (2004)
  307. Design characteristics of circular-grating distributed feedback polymer lasers
    Graham Alexander Turnbull, A Carleton, GF Barlow, A Tahraouhi, Thomas Fraser Krauss, KA Shore and Ifor David William Samuel, Journal of Applied Physics, 98, p. 023105 (2004)
  308. Emission characteristics and performance comparison of polyfluorene lasers with one- and two-dimensional distributed feedback DOI
    G Heliotis, R D Xia, G A Turnbull, P Andrew, W L Barnes, I D W Samuel and D D C Bradley, Advanced Functional Materials, 14, 1 , p. 91-97 (2004)
  309. Nanoparticles from the decomposition of the complex, [InN3(CH2CH2CH2NMe2)2] DOI
    PS Schofield, Wuzong Zhou, P Wood, Ifor David William Samuel and David John Cole-Hamilton, Journal of Materials Chemistry, 14, 21 , p. 3124-3126 (2004)
  310. Optical amplification in a dendritic organic semiconductor DOI
    JR Lawrence, Graham Alexander Turnbull, Ifor David William Samuel and PL Burn, Optics Letters, 29, 869-871 (2004)
  311. Polymer lasers: recent advances
    Ifor David William Samuel and Graham Alexander Turnbull, 7 (2004)
  312. The synthesis and properties of solution processable red-emitting phosphorescent dendrimers DOI
    M J Frampton, E B Namdas, S C Lo, P L Burn and I D W Samuel, Journal of Materials Chemistry, 14, 19 , p. 2881-2888 (2004)
  313. Synthesis and properties of highly efficient electroluminescent green phosphorescent iridium cored dendrimers DOI
    SC Lo, EB Namdas, PL Burn and Ifor David William Samuel, Macromolecules, 36, 26 , p. 9721-9730 (2003)
  314. Polarized organic electroluminescence: Ordering from the top DOI
    N Godbert, PL Burn, S Gilmour, JPJ Markham and Ifor David William Samuel, Applied Physics Letters, 83, 26 , p. 5347-5349 (2003)
  315. Investigation of amplified spontaneous emission in oriented films of a liquid crystalline conjugated polymer DOI
    G Heliotis, R Xia, KS Whitehead, Graham Alexander Turnbull, Ifor David William Samuel and DDC Bradley, 139 (2003)
  316. Blue, surface-emitting, distributed feedback polyfluorene lasers DOI
    G Heliotis, R Xia, D D C Bradley, G A Turnbull, I D W Samuel, P Andrew and W L Barnes, Applied Physics Letters, 83, 11 , p. 2118-2120 (2003)
  317. Influence of molecular structure on the properties of dendrimer light-emitting diodes DOI
    TD Anthopoulos, JPJ Markham, EB Namdas, JR Lawrence, Ifor David William Samuel, SC Lo and PL Burn, 4 (2003)
  318. Time-dependence of erbium(III) tris(8-hydroxyquinolate) near- infrared photoluminescence: implications for organic light- emitting diode efficiency
    SW Magennis, AJ Ferguson, T Bryden, TS Jones, A Beeby and Ifor David William Samuel, Synthetic Metals, 138, 3 , p. 463-469 (2003)
  319. Highly efficient single-layer dendrimer light-emitting diodes with balanced charge transport DOI
    TD Anthopoulos, JP Markham, EB Namdas, Ifor David William Samuel, SC Lo and PL Burn, Applied Physics Letters, 82, 26 , p. 4824-4826 (2003)
  320. Polymer laser fabricated by a simple micromolding process DOI
    JR Lawrence, Graham Alexander Turnbull and Ifor David William Samuel, Applied Physics Letters, 82, 23 , p. 4023-4025 (2003)
  321. Conformational disorder and energy migration in MEH-PPV with partially broken conjugation DOI
    MM Grage, PW Wood, A Ruseckas, T Pullerits, W Mitchell, PL Burn, Ifor David William Samuel and V Sundstrom, Journal of Chemical Physics, 118, 16 , p. 7644-7650 (2003)
  322. Photonic mode dispersion of a two-dimensional distributed feedback polymer laser DOI
    G A Turnbull, P Andrew, W L Barnes and I D W Samuel, Physical Review. B, Condensed matter and materials physics, 67 (2003)
  323. Bright electroluminescence from a new conjugated dendrimer DOI
    DG Ma, YF Hu, YG Zhang, LX Wang, XB Jing, FS Wang, JM Lupton, Ifor David William Samuel, SC Lo and PL Burn, Synthetic Metals, 137, 1-3 , p. 1125-1126 (2003)
  324. The effect of core delocalization on intermolecular interactions in conjugated dendrimers
    R Beavington, MJ Frampton, JM Lupton, PL Burn and Ifor David William Samuel, Advanced Functional Materials, 13, 3 , p. 211-218 (2003)
  325. Operating characteristics of a semiconducting-polymer laser pumped by a microchip laser DOI
    Graham Alexander Turnbull, P Andrew, WL Barnes and Ifor David William Samuel, Applied Physics Letters, 82, 3 , p. 313-315 (2003)
  326. Photonic mode dispersion of a 2-dimensional distributed feedback polymer laser
    Graham Alexander Turnbull, P Andrew, WL Barnes and Ifor David William Samuel, Physical Review. B, Condensed matter and materials physics, 67 (2003)
  327. The effect of intermolecular interactions on the electro- optical properties of porphyrin dendrimers with conjugated dendrons DOI
    MJ Frampton, SW Magennis, JN Pillow, PL Burn and Ifor David William Samuel, Journal of Materials Chemistry, 13, 2 , p. 235-242 (2003)
  328. Tuning the emission of cyclometalated iridium complexes by simple ligand modification DOI
    A Beeby, S Bettington, I D W Samuel and Z J Wang, Journal of Materials Chemistry, 13, 1 , p. 80-83 (2003)
  329. Bright electroluminescence from a conjugated dendrimer (vol 81, pg 2285, 2002) DOI
    D G Ma, S C Lo, P L Burn, J M Lupton and I D W Samuel, Applied Physics Letters, 81, p. 4476-4476 (2002)
  330. Efficient energy transfer in organic thin films - implications for organic lasers DOI
    AK Sheridan, AR Buckley, AM Fox, A Bacher, DDC Bradley and Ifor David William Samuel, Journal of Applied Physics, 92, p. 6367 (2002)
  331. Organic semiconductors in a spin
    I Samuel, Physics World, 15, p. 20-21 (2002)
  332. Modelling temperature dependent current-voltage characteristics of an MEH-PPV organic light emitting device
    SJ Martin, JM Lupton, Ifor David William Samuel and AB Walker, Journal of Physics: Condensed Matter, 14, p. 9925 (2002)
  333. Nondispersive hole transport in a spin-coated dendrimer film measured by the charge-generation-layer time-of-flight method DOI
    JPJ Markham, TD Anthopoulos, Ifor David William Samuel, GJ Richards, PL Burn, C Im and H Bassler, Applied Physics Letters, 81, p. 3266 (2002)
  334. Origin of spectral broadening in pi-conjugated amorphous semiconductors DOI
    J M Lupton, I D W Samuel and P L Burn, Physical Review. B, Condensed matter and materials physics, 66, 15 (2002)
  335. Synthesis and excited state spectroscopy of tris (distyrylbenzenyl) amine-cored electroluminescent dendrimers
    LO Palsson, R Beavington, MJ Frampton, JM Lupton, SW Magennis, JPJ Markham, JN Pillow, PL Burn and Ifor David William Samuel, Macromolecules, 35, p. 7891 (2002)
  336. Index and relief gratings in polymer films for organic distributed feedback lasers DOI
    T Kavc, G Langer, W Kern, G Kranzelbinder, E Toussaere, Graham Alexander Turnbull, Ifor David William Samuel, KF Iskra, T Neger and A Pogantsch, Chemistry of Materials, 14, p. 4178 (2002)
  337. Bright electroluminescence from a conjugated dendrimer DOI
    DG Ma, JM Lupton, Ifor David William Samuel, SC Lo and PL Burn, Applied Physics Letters, 81, p. 2285 (2002)
  338. Optical properties of a light-emitting polymer directly patterned by soft lithography DOI
    JR Lawrence, P Andrew, WL Barnes, Manfred Buck, Graham Alexander Turnbull and Ifor David William Samuel, Applied Physics Letters, 81, p. 1955-1957 (2002)
  339. Control of Intrachromophore Excitonic Coherence in Electroluminescent Conjugated Dendrimers DOI
    JM Lupton, Ifor David William Samuel, PL Burn and S Mukamel, Journal of Physical Chemistry B, 106, p. 7647 (2002)
  340. Photonic band structure and emission characteristics of a metal-backed polymeric distributed feedback laser DOI
    P Andrew, Graham Alexander Turnbull, Ifor David William Samuel and WL Barnes, Applied Physics Letters, 81, p. 954 (2002)
  341. Novel heterolayer organic light-emitting diodes based on a conjugated dendrimer
    DG Ma, JM Lupton, R Beavington, PL Burn and Ifor David William Samuel, Advanced Functional Materials, 12, p. 507 (2002)
  342. Light amplification and gain in polyfluorene waveguides DOI
    G Heliotis, DDC Bradley, Graham Alexander Turnbull and Ifor David William Samuel, Applied Physics Letters, 81, 3 , p. 415-417 (2002)
  343. Green phosphorescent dendrimer for light-emitting diodes DOI
    SC Lo, NAH Male, JPJ Markham, SW Magennis, PL Burn, OV Salata and Ifor David William Samuel, Advanced Materials, 14, 13 , p. 975-979 (2002)
  344. A Neutron reflection study on soluble and insoluble poly[2-(2 '- ethylhexyloxy)-5-methoxy-1,4-phenylenevinylene) films DOI
    GR Webster, WJ Mitchell, PL Burn, RK Thomas, G Fragneto, JPJ Markham and Ifor David William Samuel, Journal of Applied Physics, 91, p. 9066 (2002)
  345. Photophysics of a fluorene co-polymer in solution and films
    LO Palsson, CS Wang, DL Russell, AP Monkman, MR Bryce, G Rumbles and Ifor David William Samuel, Chemical Physics, 279, p. 229 (2002)
  346. Investigations of excitation energy transfer and intramolecular interactions in a nitrogen corded distrylbenzene dendrimer system DOI
    O Varnavski, Ifor David William Samuel, LO Palsson, R Beavington, PL Burn and T Goodson, Journal of Chemical Physics, 116, 20 , p. 8893 (2002)
  347. Controlling the optical emission from the polymer MEH-PPV using corrugated thin film structures DOI
    JA Wasey, A Safonov, MJ Jory, Ifor David William Samuel and WL Barnes, The European Physical Journal - Applied Physics, 18, 2 , p. 89 (2002)
  348. Broadband optical amplifier based on a conjugated polymer DOI
    JR Lawrence, Graham Alexander Turnbull and Ifor David William Samuel, Applied Physics Letters, 80, p. 3036 (2002)
  349. High-efficiency green phosphorescence from spin-coated single- layer dendrimer light-emitting diodes DOI
    JPJ Markham, SC Lo, SW Magennis, PL Burn and Ifor David William Samuel, Applied Physics Letters, 80, 15 , p. 2645-2647 (2002)
  350. Emission characteristics and photonic band structure of microstructured polymer lasers
    Graham Alexander Turnbull, P Andrew, MJ Jory, WL Barnes and Ifor David William Samuel, Synthetic Metals, 127, p. 45 (2002)
  351. Improvement of luminescence efficiency by electrical annealing in single-layer organic light-emitting diodes based on a conjugated dendrimer
    M Dongge, JM Lupton, R Beavington, PL Burn and Ifor David William Samuel, Journal of Physics D : Applied Physics, 35, p. 520 (2002)
  352. Exciton confinement in organic dendrimer quantum wells for opto-electronic applications
    JM Lupton, Ifor David William Samuel, PL Burn and S Mukamel, Journal of Chemical Physics, 116, p. 455 (2002)
  353. Fabrication of refractive index and relief gratings in polymer films for DFB lasers
    T Kavc, G Langer, W Kern, G Kranzelbinder, E Tousaerre, Graham Alexander Turnbull, Ifor David William Samuel, KF Iskra and T Neger, 708 (2002)
  354. Conformational disorder in long polyenes
    P Wood, Ifor David William Samuel, R Schrock and RL Christensen, Journal of Chemical Physics, 115, p. 10955 (2001)
  355. Relationship between photonic band structure and emission characteristics of a polymer distributed feedback laser DOI
    Graham Alexander Turnbull, P Andrew, MJ Jory, WL Barnes and Ifor David William Samuel, Physical Review. B, Condensed matter and materials physics, 64, 12 , p. 1251221-1251226 (2001)
  356. Structure-property relationships in conjugated molecules
    PL Burn, R Beavington, MJ Frampton, JN Pillow, M Halim, JM Lupton and Ifor David William Samuel, 85 (2001)
  357. Lifetime studies of light-emitting diode structures incorporating polymeric Langmuir-Blodgett films
    GY Jung, A Yates, Ifor David William Samuel and MC Petty, 14 (2001)
  358. Control of electrophosphorescence in conjugated dendrimer light-emitting diodes
    JM Lupton, Ifor David William Samuel, MJ Frampton, R Beavington and PL Burn, Advanced Functional Materials, 11, p. 287 (2001)
  359. Manufacturing flexible light-emitting polymer displays with conductive lithographic film technology
    D Lochun, D Harrison, M Kilitziraki and Ifor David William Samuel, 10 (2001)
  360. Ultrafast polarized fluorescence dynamics in an organic dendrimer (vol 77, pg 1120, 2000)
    O Varnavski, G Menkir, T Goodson, P L Burn, I D W Samuel, J M Lupton and R Beavington, Applied Physics Letters, 78, p. 3749-3749 (2001)
  361. Photonic band structure and emissive characteristics of MEH-PPV textured microcavities
    MG Salt, WL Barnes and Ifor David William Samuel, Journal of Modern Optics, 48, p. 1085 (2001)
  362. Control of mobility in molecular organic semiconductors by dendrimer generation DOI
    J M Lupton, I D W Samuel, R Beavington, M J Frampton, P L Burn and H Bassler, Physical Review. B, Condensed matter and materials physics, 63, 15 , p. 155206 (2001)
  363. The solid-state photoluminescent quantum yield of triboluminescent materials
    G Bourhill, LO Palsson, Ifor David William Samuel, IC Sage, IDH Oswald and JP Duignan, Chemical Physics Letters, 336, p. 234 (2001)
  364. Charge transport in conjugated dendrimers for light-emitting diodes
    JM Lupton, Ifor David William Samuel, R Beavington, PL Burn and H Bassler, Synthetic Metals, 121, p. 1703 (2001)
  365. Cyano-substituted model compounds and conjugated polymers of PPV
    MM de Souza, G Rumbles, DL Russell, Ifor David William Samuel, SC Moratti, AB Holmes and PL Burn, Synthetic Metals, 119, p. 635 (2001)
  366. Fluorene co-polymer luminescence: implications for molecular interactions
    LO Palsson, CS Wang, AP Monkman, MR Bryce, G Rumbles and Ifor David William Samuel, Synthetic Metals, 119, p. 627 (2001)
  367. Investigating the effect of conjugation in MEH-PPV
    P Wood, Ifor David William Samuel, GR Webster and PL Burn, Synthetic Metals, 119, p. 571 (2001)
  368. The optoelectronic properties of electroluminescent dendrimers
    MJ Frampton, R Beavington, JM Lupton, Ifor David William Samuel and PL Burn, Synthetic Metals, 121, p. 1671 (2001)
  369. Time-resolved PL studies of partially conjugated MEH-PPV - Control of excimer emission
    SA Whitelegg, A Buckley, MD Rahn, AM Fox, DDC Bradley, LO Palsson, Ifor David William Samuel, GR Webster and PL Burn, Synthetic Metals, 119, p. 575 (2001)
  370. Tuneability of the ASE in thin organic films
    AK Sheridan, Graham Alexander Turnbull, DDC Bradley and Ifor David William Samuel, Synthetic Metals, 121, p. 1759 (2001)
  371. Tuneable distributed feedback lasing in MEH-PPV films
    Graham Alexander Turnbull, Thomas Fraser Krauss, WL Barnes and Ifor David William Samuel, Synthetic Metals, 121, 1-3 , p. 1757-1758 (2001)
  372. Control of charge transport and intermolecular interaction in organic light-emitting diodes by dendrimer generation DOI
    JM Lupton, Ifor David William Samuel, R Beavington, PL Burn and H Bassler, Advanced Materials, 13, 4 , p. 258-261 (2001)
  373. Polymeric alkoxy PBD [2-(4-biphenylyl)-5-phenyl-1,3,4- oxadiazole] for light-emitting diodes
    CS Wang, M Kilitziraki, LO Palsson, MR Bryce, AP Monkman and Ifor David William Samuel, Advanced Functional Materials, 11, p. 47 (2001)
  374. Increased Efficiency and Controlled Light Output from a Microstructured Light-Emitting Diode DOI
    BJ Matterson, JM Lupton, AF Safonov, MG Salt, WL Barnes and Ifor David William Samuel, Advanced Materials, 13, p. 123 (2001)
  375. Modification of polymer light emission by lateral microstructure
    AN Safonov, M Jory, BJ Matterson, JM Lupton, MG Salt, JA Wasey, WL Barnes and Ifor David William Samuel, Synthetic Metals, 116, p. 145 (2001)
  376. Nanoengineering of organic semiconductors for light-emitting diodes: control of charge transport
    JM Lupton, Ifor David William Samuel, R Beavington, PL Burn and H Bassler, Synthetic Metals, 116, p. 357 (2001)
  377. Control of polymer-electrode interactions: the effect of leaving group on the optical properties and device characteristics of EHPPV
    SC Lo, LO Palsson, M Kilitziraki, PL Burn and Ifor David William Samuel, Journal of Materials Chemistry, 11, p. 2228 (2001)
  378. Efficiency of radiative emission from thin films of a light- emitting conjugated polymer DOI
    JAE Wasey, A Safonov, Ifor David William Samuel and WL Barnes, Physical Review. B, Condensed matter and materials physics, 64, 20 (2001)
  379. Time delayed electroluminescence overshoot in single layer polymer light-emitting diodes due to electrode luminescence quenching
    JM Lupton, VR Nikitenko, Ifor David William Samuel and H Bassler, Journal of Applied Physics, 89, p. 311 (2001)
  380. Bragg scattering from periodically microstructured light-emitting diodes
    Ifor David William Samuel, JM Lupton, BJ Matterson, MJ Jory and other 1, Applied Physics Letters, 77, p. 3340-3342 (2000)
  381. Effects of dipole orientation and birefringence on the optical emission from thin films DOI
    JAE Wasey, A Safonov, Ifor David William Samuel and WL Barnes, Optics Communications, 183, 1-4 , p. 109-121 (2000)
  382. A theoretical and experimental study of cyano- and alkoxy- substituted phenylenevinylene model compounds
    MM de Souza, G Rumbles, IR Gould, H Amer, Ifor David William Samuel, SC Moratti and AB Holmes, Synthetic Metals, 111, p. 539 (2000)
  383. Birefringence and dispersion of the light emitting polymer MEH- PPV
    A Boudrioua, PA Hobson, B Matterson, Ifor David William Samuel and WL Barnes, Synthetic Metals, 111, p. 545 (2000)
  384. Photoluminescence studies of solution thermochromism in a cyano-subsituted phenylene vinylene derivative
    G Rumbles, CJ Collison, DL Russell, LA Magnani, AB Holmes, SC Moratti and Ifor David William Samuel, Synthetic Metals, 111, p. 501 (2000)
  385. Temperature dependence of the spectral line narrowing and photoluminescence of MEH-PPV
    AK Sheridan, JM Lupton, Ifor David William Samuel and DDC Bradley, Synthetic Metals, 111, p. 531 (2000)
  386. Temperature-dependent device model for polymer light-emitting diodes: significance of barrier height
    JM Lupton and Ifor David William Samuel, Synthetic Metals, 111, p. 381 (2000)
  387. Effect of temperature on the spectral line-narrowing in MEH-PPV
    AK Sheridan, JM Lupton, Ifor David William Samuel and DDC Bradley, Chemical Physics Letters, 332, p. 51 (2000)
  388. The effect of insulating spacer layers on the electrical properties of polymeric Langmuir-Blodgett film light emitting devices
    GY Jung, C Pearson, LE Horsburgh, Ifor David William Samuel, AP Monkman and MC Petty, Journal of Physics D : Applied Physics, 33, p. 1029 (2000)
  389. Display technology - Sidestepping the selection rules
    Ifor David William Samuel and A Beeby, Nature, 403, p. 710 (2000)
  390. Tuning the optoelectronic properties of pyridine-containing polymers for light-emitting devices
    CS Wang, M Kilitziraki, JAH MacBride, MR Bryce, LE Horsburgh, AK Sheridan, AP Monkman and Ifor David William Samuel, Advanced Materials, 12, p. 217 (2000)
  391. Comparison of precursor polymer routes to and electronic properties of a new phenylacetylene derivatised poly[2-(2 '- ethylhexyloxy)-1,4-phenylenevinylene]
    SC Lo, AK Sheridan, Ifor David William Samuel and PL Burn, Journal of Materials Chemistry, 10, p. 275 (2000)
  392. Polymer electronics
    Ifor David William Samuel, Philosophical Transactions of the Royal Society. A, Mathematical, Physical and Engineering Sciences, 358, p. 193 (2000)
  393. Dual-layer light emitting devices based on polymeric Langmuir- Blodgett films
    GY Jung, C Pearson, M Kilitziraki, LE Horsburgh, AP Monkman, Ifor David William Samuel and MC Petty, Journal of Materials Chemistry, 10, p. 163 (2000)
  394. Electroluminescence from a new distyrylbenzene based triazine dendrimer
    JM Lupton, LR Hemingway, Ifor David William Samuel and PL Burn, Journal of Materials Chemistry, 10, p. 867 (2000)
  395. Tuneability of amplified spontaneous emission through control of the waveguide-mode structure in conjugated polymer films DOI
    AK Sheridan, Graham Alexander Turnbull, AN Safonov and Ifor David William Samuel, Physical Review. B, Condensed matter and materials physics, 62, 18 (2000)
  396. Temperature-dependent single carrier device model for polymeric light emitting diodes
    JM Lupton and Ifor David William Samuel, Journal of Physics D : Applied Physics, 32, p. 2973 (1999)
  397. A facile iterative procedure for the preparation of dendrimers containing luminescent cores and stilbene dendrons
    JN Pillow, M Halim, JM Lupton, PL Burn and Ifor David William Samuel, Macromolecules, 32, p. 5985 (1999)
  398. Comparison of the electronic properties of poly[2-(2 '- ethylhexyloxy)-1,4-phenylenevinylene] prepared by different precursor polymer routes
    SC Lo, AK Sheridan, Ifor David William Samuel and PL Burn, Journal of Materials Chemistry, 9, p. 2165 (1999)
  399. Optoelectronics optoelectronics - Reflections on polymers
    WL Barnes and Ifor David William Samuel, Science, 285, p. 211 (1999)
  400. Reflections on polymers
    WL Barnes and Ifor David William Samuel, Science, 285, p. 211 (1999)
  401. Third-order microscopic nonlinearities of very long chain polyenes: saturation phenomena and conformational effects
    I Ledoux, Ifor David William Samuel, J Zyss, SN Yaliraki, FJ Schattenmann, RR Schrock and RJ Silbey, Chemical Physics, 245, p. 1 (1999)
  402. Conjugated dendrimers for LEDs: Control of colour
    M Halim, Ifor David William Samuel, JN Pillow and PL Burn, Synthetic Metals, 102, p. 1113 (1999)
  403. Control of colour and charge injection in conjugated dendrimer polypyridine bilayer LEDs
    M Halim, Ifor David William Samuel, JN Pillow, AP Monkman and PL Burn, Synthetic Metals, 102, p. 1571 (1999)
  404. Electrical Characterisation of polymer heterojunction light- emitting diodes
    S Dailey, AP Monkman and Ifor David William Samuel, Synthetic Metals, 102, p. 945 (1999)
  405. Synthesis and characterisation of partially-conjugated 2,5- diallcoxy-p-phenylenevinylene light-emitting polymers
    PC Marr, Joseph Alan Crayston, M Halim and Ifor David William Samuel, Synthetic Metals, 102, p. 1081 (1999)
  406. Synthetic routes to phenylene vinylene dendrimers
    JN Pillow, PL Burn, Ifor David William Samuel and M Halim, Synthetic Metals, 102, p. 1468 (1999)
  407. Temperature dependence of current-voltage characteristics of poly(p-pyridine) light-emitting diodes
    JM Lupton, Ifor David William Samuel and AP Monkman, Synthetic Metals, 102, p. 1079 (1999)
  408. The effect of dendrimer generation on LED efficiency
    M Halim, JN Pillow, Ifor David William Samuel and PL Burn, Synthetic Metals, 102, p. 922 (1999)
  409. Effect of lateral microstructure on conjugated polymer luminescence
    BJ Matterson, MG Salt, WL Barnes and Ifor David William Samuel, Synthetic Metals, 101, p. 250 (1999)
  410. Photophysical characterisation of poly(p-pyridine)
    AP Monkman, M Halim, S Dailey, Ifor David William Samuel and L Horsbrugh, Synthetic Metals, 101, p. 253 (1999)
  411. Photophysical properties of protonated poly(p-pyridine)
    AP Monkman, M Halim, S Dailey, Ifor David William Samuel and LE Horsburgh, Synthetic Metals, 101, p. 208 (1999)
  412. Photophysics of an alkyl substituted poly(p-phenylenevinylene)
    AK Sheridan, Ifor David William Samuel, A Bleyer and DDC Bradley, Synthetic Metals, 101, p. 259 (1999)
  413. Synthesis and characterisation of polypyridines
    LE Horsburgh, AP Monkman and Ifor David William Samuel, Synthetic Metals, 101, p. 113 (1999)
  414. Temperature dependent photoluminescence from a cyano- substituted phenylene vinylene polymer
    G Rumbles, Ifor David William Samuel, CJ Collison, PF Miller, SC Moratti and AB Holmes, Synthetic Metals, 101, p. 158 (1999)
  415. The influence of solvent dielectric constant on the photophysical properties of cyano and alkoxy substituted phenylene vinylene model compounds
    MM Souza, G Rumbles, Ifor David William Samuel, SC Moratti and AB Holmes, Synthetic Metals, 101, p. 631 (1999)
  416. Conjugated dendrimers for light-emitting diodes:effect of generation
    M Halim, JNG Pillow, Ifor David William Samuel and PL Burn, Advanced Materials, 11, p. 371 (1999)
  417. Device model for polymer light-emitting diodes: effect of temperature and oxidation
    JM Lupton and Ifor David William Samuel, p. 340 (1999)
  418. Effect of different precursor routes on the electronic properties of poly[2-(2 '-ethylhexyloxy)-1,4-phenylenevinylene] and poly[2-(2 '-ethylhexyloxy)-5-(phenylethynyl)-1,4- phenylenevinylene#
    SC Lo, AK Sheridan, Ifor David William Samuel and PL Burn, Abstracts of Papers of the American Chemical Society, 218, p. 551 (1999)
  419. Effect of generation on the electronic properties of light-emitting dendrimers
    PL Burn, M Halim, JNG Pillow and Ifor David William Samuel, p. 66 (1999)
  420. Intrachain and interchain excitations in light-emitting polymers: A photoluminescence study
    G Rumbles, Ifor David William Samuel, AB Holmes, SC Moratti, PF Miller and CJ Collison, Abstracts of Papers of the American Chemical Society, 218, p. 55 (1999)
  421. Thermochromism in polyenes
    RL Christensen, G Rumbles, Ifor David William Samuel, RR Schrock and FJ Schattenmann, Abstracts of Papers of the American Chemical Society, 217, p. 341 (1999)
  422. Protonation effects on the photophysical properties of poly(2,5-pyridine diyl)
    AP Monkman, M Halim, Ifor David William Samuel and LE Horsburgh, Journal of Chemical Physics, 109, p. 10372 (1998)
  423. An efficient electron-transporting polymer for light-emitting diodes
    S Dailey, M Halim, E Rebourt, LE Horsburgh, Ifor David William Samuel and AP Monkman, Journal of Physics: Condensed Matter, 10, p. 5171 (1998)
  424. Photoinduced electron transfer between 16-(9- anthroyloxy)palmitic acid and fullerene C-60 in Langmuir- Blodgett films
    MI Sluch, Ifor David William Samuel, A Beeby and MC Petty, Langmuir, 14, p. 3343 (1998)
  425. Photo- and electroluminescence of poly(2-methoxy,5-(2 '- ethylhexyloxy)-p-phenylene vinylene) Langmuir-Blodgett films
    MI Sluch, C Pearson, MC Petty, M Halim and Ifor David William Samuel, Synthetic Metals, 94, p. 285 (1998)
  426. Intra-and inter-molecular photoexcitations in a cyano- substituted poly(p-phenylenevinylene)
    Ifor David William Samuel, G Rumbles, CJ Collison, SC Moratti and AB Holmes, Chemical Physics, 227, p. 75 (1998)
  427. Light-emitting polymers - the shape of things to come?
    PL Burn and Ifor David William Samuel, 1 (1998)
  428. Quenching of pyrene fluorescence by fullerene C-60 in Langmuir- Blodgett films
    MI Sluch, Ifor David William Samuel and MC Petty, Chemical Physics Letters, 280, p. 315 (1997)
  429. Polarization dependence of the ultrafast photoluminescence of oriented poly(p-phenylenevinylene) DOI
    GR Hayes, Ifor David William Samuel and RT Phillips, Physical Review. B, Condensed matter and materials physics, 56, 7 , p. 3838-3843 (1997)
  430. Femtosecond photoluminescence spectroscopy of conjugated polymers
    GR Hayes, Ifor David William Samuel and RT Phillips, Synthetic Metals, 84, p. 889 (1997)
  431. Luminescence efficiency and time-dependence: insights into the nature of the emitting species in conjugated polymers
    Ifor David William Samuel, G Rumbles and RH Friend (1997)
  432. Measurement of time dependent quantum yield of poly(p-pyridine) and poly(p-phenylenevinylene)
    M Halim, Ifor David William Samuel, E Rebourt and AP Monkman, Synthetic Metals, 84, p. 951 (1997)
  433. Photoluminescence in poly(3-hexylthiophene)
    Ifor David William Samuel, L Magnani, G Rumbles, K Murray, B Stone, SC Moratti and AB Holmes, p. 163 (1997)
  434. Photoluminescence studies of chain interactions in electroluminescent polymers
    L Magnani, G Rumbles, Ifor David William Samuel, K Murray, SC Moratti, AB Holmes and RH Friend, Synthetic Metals, 84, p. 899 (1997)
  435. Picosecond time-resolved photoluminescence of PPV derivatives
    Ifor David William Samuel, G Rumbles, CJ Collison, RH Friend, SC Moratti and AB Holmes, Synthetic Metals, 84, p. 497 (1997)
  436. Polypyridine as an efficient electron-transporting polymer for light-emitting diodes
    S Dailey, M Halim, E Rebourt, Ifor David William Samuel and AP Monkman, p. 82 (1997)
  437. Ultrafast dynamics of photoexcitations in conjugated polymers
    GR Hayes, Ifor David William Samuel and RT Phillips, Synthetic Metals, 84, p. 889 (1997)