Paul Burn
Paul Burn
Centre for Organic Photonics & Electronics, The University of Queensland
Verified email at - Homepage
Cited by
Cited by
Light-emitting diodes based on conjugated polymers
JH Burroughes, DDC Bradley, AR Brown, RN Marks, K Mackay, ...
nature 347 (6293), 539-541, 1990
Electro-optics of perovskite solar cells
Q Lin, A Armin, RCR Nagiri, PL Burn, P Meredith
Nature Photonics 9 (2), 106-112, 2015
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
Chemical tuning of electroluminescent copolymers to improve emission efficiencies and allow patterning
PL Burn, AB Holmes, A Kraft, DDC Bradley, AR Brown, RH Friend, ...
Nature 356 (6364), 47-49, 1992
Poly(p‐phenylenevinylene) light‐emitting diodes: Enhanced electroluminescent efficiency through charge carrier confinement
AR Brown, DDC Bradley, JH Burroughes, RH Friend, NC Greenham, ...
Applied Physics Letters 61 (23), 2793-2795, 1992
Development of dendrimers: Macromolecules for use in organic light-emitting diodes and solar cells
SC Lo, PL Burn
Chemical Reviews 107 (4), 1097-1116, 2007
Visualization and suppression of interfacial recombination for high-efficiency large-area pin perovskite solar cells
M Stolterfoht, CM Wolff, JA Márquez, S Zhang, CJ Hages, D Rothhardt, ...
Nature Energy 3 (10), 847-854, 2018
Organic photodiodes: the future of full color detection and image sensing
RD Jansen‐van Vuuren, A Armin, AK Pandey, PL Burn, P Meredith
Advanced Materials 28 (24), 4766-4802, 2016
The development of light‐emitting dendrimers for displays
PL Burn, SC Lo, IDW Samuel
Advanced Materials 19 (13), 1675-1688, 2007
Filterless narrowband visible photodetectors
Q Lin, A Armin, PL Burn, P Meredith
Nature Photonics 9 (10), 687-694, 2015
Narrowband light detection via internal quantum efficiency manipulation of organic photodiodes
A Armin, RD Jansen-van Vuuren, N Kopidakis, PL Burn, P Meredith
Nature communications 6 (1), 6343, 2015
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
Optical spectroscopy of highly ordered poly (p-phenylene vinylene)
K Pichler, DA Halliday, DDC Bradley, PL Burn, RH Friend, AB Holmes
Journal of Physics: Condensed Matter 5 (38), 7155, 1993
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
Low noise, IR-blind organohalide perovskite photodiodes for visible light detection and imaging
Q Lin, A Armin, DM Lyons, PL Burn, P Meredith
Adv. Mater 27 (12), 2060-2064, 2015
Conjugated Dendrimers for Light‐Emitting Diodes: Effect of Generation
M Halim, JNG Pillow, IDW Samuel, PL Burn
Advanced Materials 11 (5), 371-374, 1999
Morphology of all‐solution‐processed “bilayer” organic solar cells
KH Lee, PE Schwenn, ARG Smith, H Cavaye, PE Shaw, M James, ...
Advanced Materials 6 (23), 766-770, 2011
Chemical tuning of the electronic properties of poly (p-phenylenevinylene)-based copolymers
PL Burn, A Kraft, D Baigent, DDC Bradley, AR Brown, RH Friend, ...
Journal of the American Chemical Society 115 (22), 10117-10124, 1993
Photoexcited states in poly (p-phenylene vinylene): Comparison with trans, trans-distyrylbenzene, a model oligomer
NF Colaneri, DDC Bradley, RH Friend, PL Burn, AB Holmes, ...
Physical Review B 42 (18), 11670, 1990
Conformational effects in poly (p-phenylene vinylene) s revealed by low-temperature site-selective fluorescence
S Heun, RF Mahrt, A Greiner, U Lemmer, H Bassler, DA Halliday, ...
Journal of Physics: Condensed Matter 5 (2), 247, 1993
The system can't perform the operation now. Try again later.
Articles 1–20