Ned Ekins-Daukes
Ned Ekins-Daukes
UNSW Sydney
Verified email at - Homepage
Cited by
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Cu2ZnSnS4 solar cells with over 10% power conversion efficiency enabled by heterojunction heat treatment
C Yan, J Huang, K Sun, S Johnston, Y Zhang, H Sun, A Pu, M He, F Liu, ...
Nature energy 3 (9), 764-772, 2018
Multi-junction III–V solar cells: current status and future potential
M Yamaguchi, T Takamoto, K Araki, N Ekins-Daukes
Solar energy 79 (1), 78-85, 2005
On the efficiency limit of triplet–triplet annihilation for photochemical upconversion
YY Cheng, T Khoury, RGCR Clady, MJY Tayebjee, NJ Ekins-Daukes, ...
Physical Chemistry Chemical Physics 12 (1), 66-71, 2010
Improving the light-harvesting of amorphous silicon solar cells with photochemical upconversion
YY Cheng, B Fückel, RW MacQueen, T Khoury, RGCR Clady, TF Schulze, ...
Energy & Environmental Science 5 (5), 6953-6959, 2012
Intermediate band solar cells: Recent progress and future directions
Y Okada, NJ Ekins-Daukes, T Kita, R Tamaki, M Yoshida, A Pusch, ...
Applied physics reviews 2 (2), 2015
Strain-balanced GaAsP/InGaAs quantum well solar cells
NJ Ekins-Daukes, KWJ Barnham, JP Connolly, JS Roberts, JC Clark, ...
Applied Physics Letters 75 (26), 4195-4197, 1999
Kinetic analysis of photochemical upconversion by triplet− triplet annihilation: beyond any spin statistical limit
YY Cheng, B Fückel, T Khoury, RGCR Clady, MJY Tayebjee, ...
The Journal of Physical Chemistry Letters 1 (12), 1795-1799, 2010
Organic photovoltaic greenhouses: a unique application for semi-transparent PV?
CJM Emmott, JA Röhr, M Campoy-Quiles, T Kirchartz, A Urbina, ...
Energy & environmental science 8 (4), 1317-1328, 2015
Strain-balanced criteria for multiple quantum well structures and its signature in X-ray rocking curves
NJ Ekins-Daukes, K Kawaguchi, J Zhang
Crystal growth & design 2 (4), 287-292, 2002
Quantum well solar cells
KWJ Barnham, I Ballard, JP Connolly, NJ Ekins-Daukes, BG Kluftinger, ...
Physica E: Low-dimensional Systems and Nanostructures 14 (1-2), 27-36, 2002
A new approach to modelling quantum dot concentrators
AJ Chatten, KWJ Barnham, BF Buxton, NJ Ekins-Daukes, MA Malik
Solar Energy Materials and Solar Cells 75 (3-4), 363-371, 2003
Integrated optimisation of photovoltaic and battery storage systems for UK commercial buildings
A Mariaud, S Acha, N Ekins-Daukes, N Shah, CN Markides
Applied energy 199, 466-478, 2017
Bridging electromagnetic and carrier transport calculations for three-dimensional modelling of plasmonic solar cells
X Li, NP Hylton, V Giannini, KH Lee, NJ Ekins-Daukes, SA Maier
Optics Express 19 (104), A888-A896, 2011
Loss mitigation in plasmonic solar cells: aluminium nanoparticles for broadband photocurrent enhancements in GaAs photodiodes
NP Hylton, XF Li, V Giannini, KH Lee, NJ Ekins-Daukes, J Loo, ...
Scientific reports 3 (1), 2874, 2013
Multi‐dimensional modeling of solar cells with electromagnetic and carrier transport calculations
X Li, NP Hylton, V Giannini, KH Lee, NJ Ekins‐Daukes, SA Maier
Progress in Photovoltaics: Research and Applications 21 (1), 109-120, 2013
Strained and strain-balanced quantum well devices for high-efficiency tandem solar cells
NJ Ekins-Daukes, JM Barnes, KWJ Barnham, JP Connolly, M Mazzer, ...
Solar Energy materials and Solar cells 68 (1), 71-87, 2001
Cd-Free Cu 2 ZnSnS 4 solar cell with an efficiency greater than 10% enabled by Al 2 O 3 passivation layers
X Cui, K Sun, J Huang, JS Yun, CY Lee, C Yan, H Sun, Y Zhang, C Xue, ...
Energy & environmental science 12 (9), 2751-2764, 2019
A molecular approach to the intermediate band solar cell: The symmetric case
NJ Ekins-Daukes, TW Schmidt
Applied Physics Letters 93 (6), 2008
Quantum dot solar concentrators
AJ Chatten, KWJ Barnham, BF Buxton, NJ Ekins-Daukes, MA Malik
Semiconductors 38, 909-917, 2004
Roadmap for the next-generation of hybrid photovoltaic-thermal solar energy collectors
A Mellor, DA Alvarez, I Guarracino, A Ramos, AR Lacasta, LF Llin, ...
Solar Energy 174, 386-398, 2018
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