Organic semiconductor lasers IDW Samuel, GA Turnbull Chemical reviews 107 (4), 1272-1295, 2007 | 1603 | 2007 |
Exciton diffusion measurements in poly (3‐hexylthiophene) PE Shaw, A Ruseckas, IDW Samuel Advanced Materials 20 (18), 3516-3520, 2008 | 1160 | 2008 |
Measurement of absolute photoluminescence quantum efficiencies in conjugated polymers NC Greenham, IDW Samuel, GR Hayes, RT Phillips, Y Kessener, ... Chemical physics letters 241 (1-2), 89-96, 1995 | 1057 | 1995 |
Blue phosphorescence from iridium (III) complexes at room temperature SC Lo, CP Shipley, RN Bera, RE Harding, AR Cowley, PL Burn, ... Chemistry of materials 18 (21), 5119-5129, 2006 | 968 | 2006 |
Light harvesting for organic photovoltaics GJ Hedley, A Ruseckas, IDW Samuel Chemical Reviews 117 (2), 796-837, 2017 | 571 | 2017 |
The development of light‐emitting dendrimers for displays PL Burn, SC Lo, IDW Samuel Advanced Materials 19 (13), 1675-1688, 2007 | 522 | 2007 |
Green phosphorescent dendrimer for light‐emitting diodes SC Lo, NAH Male, JPJ Markham, SW Magennis, PL Burn, OV Salata, ... Advanced Materials 14 (13‐14), 975-979, 2002 | 422 | 2002 |
Determining the optimum morphology in high-performance polymer-fullerene organic photovoltaic cells GJ Hedley, AJ Ward, A Alekseev, CT Howells, ER Martins, LA Serrano, ... Nature communications 4 (1), 2867, 2013 | 396 | 2013 |
Chiral metal complexes with large octupolar optical nonlinearities C Dhenaut, I Ledoux, IDW Samuel, J Zyss, M Bourgault, HL Bozec Nature 374 (6520), 339-342, 1995 | 360 | 1995 |
High-efficiency green phosphorescence from spin-coated single-layer dendrimer light-emitting diodes JPJ Markham, SC Lo, SW Magennis, PL Burn, IDW Samuel Applied physics letters 80 (15), 2645-2647, 2002 | 348 | 2002 |
Efficient interchain photoluminescence in a high-electron-affinity conjugated polymer IDW Samuel, G Rumbles, CJ Collison Physical Review B 52 (16), R11573, 1995 | 336 | 1995 |
How to recognize lasing IDW Samuel, EB Namdas, GA Turnbull Nature Photonics 3 (10), 546-549, 2009 | 334 | 2009 |
Conjugated Dendrimers for Light‐Emitting Diodes: Effect of Generation M Halim, JNG Pillow, IDW Samuel, PL Burn Advanced Materials 11 (5), 371-374, 1999 | 316 | 1999 |
Use of the WHO Access, Watch, and Reserve classification to define patterns of hospital antibiotic use (AWaRe): an analysis of paediatric survey data from 56 countries Y Hsia, BR Lee, A Versporten, Y Yang, J Bielicki, C Jackson, J Newland, ... The Lancet Global Health 7 (7), e861-e871, 2019 | 308 | 2019 |
High-triplet-energy dendrons: enhancing the luminescence of deep blue phosphorescent iridium (III) complexes SC Lo, RE Harding, CP Shipley, SG Stevenson, PL Burn, IDW Samuel Journal of the American Chemical Society 131 (46), 16681-16688, 2009 | 285 | 2009 |
Hybrid optoelectronics: A polymer laser pumped by a nitride light-emitting diode Y Yang, GA Turnbull, IDW Samuel Applied Physics Letters 92 (16), 2008 | 281 | 2008 |
Bragg scattering from periodically microstructured light emitting diodes JM Lupton, BJ Matterson, IDW Samuel, MJ Jory, WL Barnes Applied Physics Letters 77 (21), 3340-3342, 2000 | 266 | 2000 |
Increased efficiency and controlled light output from a microstructured light‐emitting diode BJ Matterson, JM Lupton, AF Safonov, MG Salt, WL Barnes, IDW Samuel Advanced Materials 13 (2), 123-127, 2001 | 265 | 2001 |
Emission characteristics and performance comparison of polyfluorene lasers with one‐and two‐dimensional distributed feedback G Heliotis, R Xia, GA Turnbull, P Andrew, WL Barnes, IDW Samuel, ... Advanced Functional Materials 14 (1), 91-97, 2004 | 247 | 2004 |
Singlet exciton diffusion in MEH-PPV films studied by exciton–exciton annihilation AJ Lewis, A Ruseckas, OPM Gaudin, GR Webster, PL Burn, IDW Samuel Organic Electronics 7 (6), 452-456, 2006 | 234 | 2006 |