| Recent advances in white organic light‐emitting materials and devices (WOLEDs) KT Kamtekar, AP Monkman, MR Bryce Advanced Materials 22 (5), 572-582, 2010 | 1150 | 2010 |
| Triplet harvesting with 100% efficiency by way of thermally activated delayed fluorescence in charge transfer OLED emitters FB Dias, KN Bourdakos, V Jankus, KC Moss, KT Kamtekar, V Bhalla, ... Advanced Materials 25 (27), 3707-3714, 2013 | 1020 | 2013 |
| Revealing the spin–vibronic coupling mechanism of thermally activated delayed fluorescence MK Etherington, J Gibson, HF Higginbotham, TJ Penfold, AP Monkman Nature Communications 7 (1), 13680, 2016 | 764 | 2016 |
| The importance of vibronic coupling for efficient reverse intersystem crossing in thermally activated delayed fluorescence molecules J Gibson, AP Monkman, TJ Penfold ChemPhysChem 17 (19), 2956-2961, 2016 | 634 | 2016 |
| Photophysics of thermally activated delayed fluorescence molecules FB Dias, TJ Penfold, AP Monkman Methods and applications in fluorescence 5 (1), 012001, 2017 | 519 | 2017 |
| Carbazole compounds as host materials for triplet emitters in organic light-emitting diodes: polymer hosts for high-efficiency light-emitting diodes A van Dijken, JJAM Bastiaansen, NMM Kiggen, BMW Langeveld, C Rothe, ... Journal of the American Chemical Society 126 (24), 7718-7727, 2004 | 483 | 2004 |
| The role of local triplet excited states and D‐A relative orientation in thermally activated delayed fluorescence: photophysics and devices FB Dias, J Santos, DR Graves, P Data, RS Nobuyasu, MA Fox, ... Advanced Science 3 (12), 1600080, 2016 | 468 | 2016 |
| Absolute measurements of photoluminescence quantum yields of solutions using an integrating sphere L Porres, A Holland, LO Pålsson, AP Monkman, C Kemp, A Beeby Journal of fluorescence 16, 267-273, 2006 | 426 | 2006 |
| Polyaniline thin films for gas sensing NE Agbor, MC Petty, AP Monkman Sensors and Actuators B: Chemical 28 (3), 173-179, 1995 | 396 | 1995 |
| Thermally activated delayed fluorescent phenothiazine–dibenzo [a, j] phenazine–phenothiazine triads exhibiting tricolor-changing mechanochromic luminescence M Okazaki, Y Takeda, P Data, P Pander, H Higginbotham, AP Monkman, ... Chemical Science 8 (4), 2677-2686, 2017 | 376 | 2017 |
| Dibenzo[a,j]phenazine‐Cored Donor–Acceptor–Donor Compounds as Green‐to‐Red/NIR Thermally Activated Delayed Fluorescence Organic Light Emitters P Data, P Pander, M Okazaki, Y Takeda, S Minakata, AP Monkman Angewandte Chemie International Edition 55 (19), 5739-5744, 2016 | 341 | 2016 |
| Triplet energies of π-conjugated polymers AP Monkman, HD Burrows, LJ Hartwell, LE Horsburgh, I Hamblett, ... Physical Review Letters 86 (7), 1358, 2001 | 335 | 2001 |
| Measurements of solid‐state photoluminescence quantum yields of films using a fluorimeter LO Pålsson, AP Monkman Advanced Materials 14 (10), 757-758, 2002 | 330 | 2002 |
| Deep blue exciplex organic light‐emitting diodes with enhanced efficiency; P‐type or E‐type triplet conversion to singlet excitons? V Jankus, CJ Chiang, F Dias, AP Monkman Advanced Materials 25 (10), 1455-1459, 2013 | 324 | 2013 |
| Highly efficient TADF OLEDs: how the emitter–host interaction controls both the excited state species and electrical properties of the devices to achieve near 100% triplet … V Jankus, P Data, D Graves, C McGuinness, J Santos, MR Bryce, FB Dias, ... Advanced Functional Materials 24 (39), 6178-6186, 2014 | 320 | 2014 |
| Ultrahigh efficiency fluorescent single and bi‐layer organic light emitting diodes: the key role of triplet fusion CJ Chiang, A Kimyonok, MK Etherington, GC Griffiths, V Jankus, ... Advanced Functional Materials 23 (6), 739-746, 2013 | 312 | 2013 |
| Vibrational analysis of polyaniline: a model compound approach MI Boyer, S Quillard, E Rebourt, G Louarn, JP Buisson, A Monkman, ... The Journal of Physical Chemistry B 102 (38), 7382-7392, 1998 | 308 | 1998 |
| The theory of thermally activated delayed fluorescence for organic light emitting diodes TJ Penfold, FB Dias, AP Monkman Chemical communications 54 (32), 3926-3935, 2018 | 290 | 2018 |
| Rational design of TADF polymers using a donor–acceptor monomer with enhanced TADF efficiency induced by the energy alignment of charge transfer and local triplet excited states RS Nobuyasu, Z Ren, GC Griffiths, AS Batsanov, P Data, S Yan, ... Advanced Optical Materials 4 (4), 597-607, 2016 | 278 | 2016 |
| Using guest–host interactions to optimize the efficiency of TADF OLEDs PL Dos Santos, JS Ward, MR Bryce, AP Monkman The journal of physical chemistry letters 7 (17), 3341-3346, 2016 | 268 | 2016 |
