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David Binks
David Binks
在 manchester.ac.uk 的电子邮件经过验证 - 首页
标题
引用次数
引用次数
年份
Room‐temperature lasing observed from ZnO nanocolumns grown by aqueous solution deposition
K Govender, DS Boyle, P O’Brien, D Binks, D West, D Coleman
Advanced Materials 14 (17), 1221-1224, 2002
3362002
Efficient ~2 μm Tm3+-doped tellurite fiber laser
B Richards, Y Tsang, D Binks, J Lousteau, A Jha
Optics letters 33 (4), 402-404, 2008
1532008
Tellurite glass lasers operating close to 2μ m
B Richards, A Jha, Y Tsang, D Binks, J Lousteau, F Fusari, A Lagatsky, ...
Laser Physics Letters 7 (3), 177-193, 2010
1392010
Efficient carrier multiplication in InP nanoparticles
SK Stubbs, SJO Hardman, DM Graham, BF Spencer, WR Flavell, ...
Physical Review B 81 (8), 081303, 2010
1222010
Multiple exciton generation in colloidal nanocrystals
C Smith, D Binks
Nanomaterials 4 (1), 19-45, 2013
1212013
A greener route to photoelectrochemically active PbS nanoparticles
J Akhtar, MA Malik, P O'Brien, KGU Wijayantha, R Dharmadasa, ...
Journal of Materials Chemistry 20 (12), 2336-2344, 2010
1142010
Infrared emission and energy transfer in Tm3+, Tm3+-Ho3+ and Tm3+-Yb3+-doped tellurite fibre
B Richards, S Shen, A Jha, Y Tsang, D Binks
Optics Express 15 (11), 6546-6551, 2007
1142007
Near‐Unity Quantum Yields from Chloride Treated CdTe Colloidal Quantum Dots
RC Page, D Espinobarro‐Velazquez, MA Leontiadou, C Smith, EA Lewis, ...
small 11 (13), 1548-1554, 2015
1022015
Multiple exciton generation in nanocrystal quantum dots–controversy, current status and future prospects
DJ Binks
Physical Chemistry Chemical Physics 13 (28), 12693-12704, 2011
1022011
Electronic and surface properties of PbS nanoparticles exhibiting efficient multiple exciton generation
SJO Hardman, DM Graham, SK Stubbs, BF Spencer, EA Seddon, ...
Physical Chemistry Chemical Physics 13 (45), 20275-20283, 2011
1012011
Engineering halide perovskite crystals through precursor chemistry
B Li, D Binks, G Cao, J Tian
Small 15 (47), 1903613, 2019
992019
Stable and Strong Emission CsPbBr3 Quantum Dots by Surface Engineering for High-Performance Optoelectronic Films
C Zheng, C Bi, F Huang, D Binks, J Tian
ACS Applied Materials & Interfaces 11 (28), 25410-25416, 2019
952019
A Yb3+/Tm3+/Ho3+ triply-doped tellurite fibre laser
Y Tsang, B Richards, D Binks, J Lousteau, A Jha
Optics express 16 (14), 10690-10695, 2008
872008
Tm3+/Ho3+ codoped tellurite fiber laser
Y Tsang, B Richards, D Binks, J Lousteau, A Jha
Optics letters 33 (11), 1282-1284, 2008
822008
Controlled Synthesis of Tuned Bandgap Nanodimensional Alloys of PbSxSe1−x
J Akhtar, M Afzaal, M Banski, A Podhorodecki, M Syperek, J Misiewicz, ...
Journal of the American Chemical Society 133 (14), 5602-5609, 2011
762011
Self‐assembled perovskite nanowire clusters for high luminance red light‐emitting diodes
C Bi, J Hu, Z Yao, Y Lu, D Binks, M Sui, J Tian
Advanced Functional Materials 30 (48), 2005990, 2020
752020
Comparison of solar cells sensitised by CdTe/CdSe and CdSe/CdTe core/shell colloidal quantum dots with and without a CdS outer layer
N McElroy, RC Page, D Espinbarro-Valazquez, E Lewis, S Haigh, ...
Thin Solid Films 560, 65-70, 2014
732014
CdSe/CdS core/shell quantum dots as sensitizer of a photorefractive polymer composite
DJ Binks, SP Bant, DP West, P O'brien, MA Malik
Journal of Modern Optics 50 (2), 299-310, 2003
602003
Multiple exciton generation and ultrafast exciton dynamics in HgTe colloidal quantum dots
A Al-Otaify, SV Kershaw, S Gupta, AL Rogach, G Allan, C Delerue, ...
Physical Chemistry Chemical Physics 15 (39), 16864-16873, 2013
502013
Mid-IR (3–4 μm) fluorescence and ASE studies in Dy3+ doped tellurite and germanate glasses and a fs laser inscribed waveguide
BDO Richards, T Teddy-Fernandez, G Jose, D Binks, A Jha
Laser Physics Letters 10 (8), 085802, 2013
382013
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