Richard J Curry
Richard J Curry
Professor of Advanced Electronic Materials, University of Manchester
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Cited by
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Lead sulphide nanocrystal photodetector technologies
R Saran, RJ Curry
Nature Photonics 10 (2), 81, 2016
1.54 μm electroluminescence from erbium (III) tris (8-hydroxyquinoline)(ErQ)-based organic light-emitting diodes
RJ Curry, WP Gillin
Applied physics letters 75 (10), 1380-1382, 1999
Erbium (III) tris (8-hydroxyquinoline)(ErQ): A potential material for silicon compatible 1.5 μm emitters
WP Gillin, RJ Curry
Applied physics letters 74 (6), 798-799, 1999
Infrared organic light emitting diodes using neodymium tris-(8-hydroxyquinoline)
OM Khreis, RJ Curry, M Somerton, WP Gillin
Journal of Applied Physics 88 (2), 777-780, 2000
Oxide phosphors for efficient light upconversion: Yb3+ and Er3+ co-doped Ln 2 BaZnO 5 (Ln= Y, Gd)
I Etchart, A Huignard, M Bérard, MN Nordin, I Hernández, RJ Curry, ...
Journal of Materials Chemistry 20 (19), 3989-3994, 2010
Structural and optoelectronic properties of C 60 rods obtained via a rapid synthesis route
Y Jin, RJ Curry, J Sloan, RA Hatton, LC Chong, N Blanchard, V Stolojan, ...
Journal of Materials Chemistry 16 (37), 3715-3720, 2006
Efficient oxide phosphors for light upconversion; green emission from Yb 3+ and Ho 3+ co-doped Ln 2 BaZnO 5 (Ln= Y, Gd)
I Etchart, I Hernández, A Huignard, M Bérard, WP Gillin, RJ Curry, ...
Journal of Materials Chemistry 21 (5), 1387-1394, 2011
Silicon-based organic light-emitting diode operating at a wavelength of 1.5 μm
RJ Curry, WP Gillin, AP Knights, R Gwilliam
Applied Physics Letters 77 (15), 2271-2273, 2000
980 nm electroluminescence from ytterbium tris (8-hydroxyquinoline)
OM Khreis, WP Gillin, M Somerton, RJ Curry
Organic electronics 2 (1), 45-51, 2001
Electroluminescence of organolanthanide based organic light emitting diodes
RJ Curry, WP Gillin
Current Opinion in Solid State and Materials Science 5 (6), 481-486, 2001
Modified dipicolinic acid ligands for sensitization of europium (III) luminescence
MR George, CA Golden, MC Grossel, RJ Curry
Inorganic chemistry 45 (4), 1739-1744, 2006
A PbS nanocrystal- photovoltaic device for infrared light harvesting
D Dissanayake, RA Hatton, T Lutz, CE Giusca, RJ Curry, SRP Silva
Applied Physics Letters 91 (13), 133506, 2007
Efficient white light emission by upconversion in Yb 3+-, Er 3+-and Tm 3+-doped Y 2 BaZnO 5
I Etchart, M Bérard, M Laroche, A Huignard, I Hernández, WP Gillin, ...
Chemical Communications 47 (22), 6263-6265, 2011
Highly efficient near-infrared hybrid organic-inorganic nanocrystal electroluminescence device
KN Bourdakos, D Dissanayake, T Lutz, SRP Silva, RJ Curry
Applied Physics Letters 92 (15), 142, 2008
On the origin of the 2.2–2.3 eV photoluminescence from chemically etched germanium
G Kartopu, SC Bayliss, VA Karavanskii, RJ Curry, R Turan, AV Sapelkin
Journal of luminescence 101 (4), 275-283, 2003
Oxide phosphors for light upconversion; Yb3+ and Tm3+ co-doped Y2BaZnO5
I Etchart, I Hernández, A Huignard, M Bérard, M Laroche, WP Gillin, ...
Journal of Applied Physics 109 (6), 063104, 2011
Ultrahigh Performance C60 Nanorod Large Area Flexible Photoconductor Devices via Ultralow Organic and Inorganic Photodoping
R Saran, V Stolojan, RJ Curry
Scientific reports 4, 5041, 2014
Infra-red and visible electroluminescence from ErQ based OLEDs
RJ Curry, WP Gillin
Synthetic metals 111, 35-38, 2000
Nanoimprinted large area heterojunction pentacene- photovoltaic device
DMNM Dissanayake, A Adikaari, RJ Curry, RA Hatton, SRP Silva
Applied physics letters 90 (25), 253502, 2007
Operation of a reversed pentacene-fullerene discrete heterojunction photovoltaic device
DM Nanditha, M Dissanayake, RA Hatton, RJ Curry, SRP Silva
Applied physics letters 90 (11), 113505, 2007
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