Ghada I Koleilat
Ghada I Koleilat
Assistant Professor, Electrical and Computer Engineering, Dalhousie University
Verified email at - Homepage
Cited by
Cited by
Efficient, stable infrared photovoltaics based on solution-cast colloidal quantum dots
GI Koleilat, L Levina, H Shukla, SH Myrskog, S Hinds, ...
ACS nano 2 (5), 833-840, 2008
Tandem colloidal quantum dot solar cells employing a graded recombination layer
GI Koleilat, X Wang, J Tang, H Liu, IJ Kramer, R Debnath, L Brzozowski, ...
Nature Photonics 5 (8), 480-484, 2011
High performance all‐polymer solar cell via polymer side‐chain engineering
Y Zhou, T Kurosawa, W Ma, Y Guo, L Fang, K Vandewal, Y Diao, C Wang, ...
Advanced materials 26 (22), 3767-3772, 2014
Mechanically Durable and Highly Stretchable Transistors Employing Carbon Nanotube Semiconductor and Electrodes.
A Chortos, GI Koleilat, R Pfattner, D Kong, P Lin, R Nur, T Lei, H Wang, ...
Advanced Materials (Deerfield Beach, Fla.) 28 (22), 4441-4448, 2015
Electron acceptor materials engineering in colloidal quantum dot solar cells
H Liu, J Tang, IJ Kramer, R Debnath, GI Koleilat, X Wang, A Fisher, R Li, ...
Advanced Materials 23 (33), 3832-3837, 2011
Self‐Assembled, nanowire network electrodes for depleted bulk heterojunction solar cells
X Lan, J Bai, S Masala, SM Thon, Y Ren, IJ Kramer, S Hoogland, A Simchi, ...
Advanced Materials 25 (12), 1769-1773, 2013
High-yield sorting of small-diameter carbon nanotubes for solar cells and transistors
H Wang, GI Koleilat, P Liu, G Jiménez-Osés, YC Lai, M Vosgueritchian, ...
ACS nano 8 (3), 2609-2617, 2014
NIR-emitting colloidal quantum dots having 26% luminescence quantum yield in buffer solution
S Hinds, S Myrskog, L Levina, G Koleilat, J Yang, SO Kelley, EH Sargent
Journal of the American Chemical Society 129 (23), 7218-7219, 2007
All-polymer solar cells employing non-halogenated solvent and additive
Y Zhou, KL Gu, X Gu, T Kurosawa, H Yan, Y Guo, GI Koleilat, D Zhao, ...
Chemistry of Materials 28 (14), 5037-5042, 2016
Photodetectors and Photovoltaics Based on Semiconductor Nanocrystals
EH Sargent, G Koleilat, J Tang, KW Johnston, AG Pattantyus-Abraham, ...
US Patent App. 12/426,854, 2010
Enhanced open-circuit voltage in visible quantum dot photovoltaics by engineering of carrier-collecting electrodes
X Wang, GI Koleilat, A Fischer, J Tang, R Debnath, L Levina, EH Sargent
ACS applied materials & interfaces 3 (10), 3792-3795, 2011
Dimensionality engineering of metal halide perovskites
RF Kahwagi, ST Thornton, B Smith, GI Koleilat
Frontiers of Optoelectronics 13 (3), 196-224, 2020
Folded-light-path colloidal quantum dot solar cells
GI Koleilat, IJ Kramer, CTO Wong, SM Thon, AJ Labelle, S Hoogland, ...
Scientific Reports 3 (1), 2166, 2013
A donor-supply electrode (DSE) for colloidal quantum dot photovoltaics
GI Koleilat, X Wang, AJ Labelle, AH Ip, GH Carey, A Fischer, L Levina, ...
Nano letters 11 (12), 5173-5178, 2011
Surpassing the exciton diffusion limit in single-walled carbon nanotube sensitized solar cells
GI Koleilat, M Vosgueritchian, T Lei, Y Zhou, DW Lin, F Lissel, P Lin, ...
ACS nano 10 (12), 11258-11265, 2016
Graded recombination layers for multijunction photovoltaics
GI Koleilat, X Wang, EH Sargent
Nano letters 12 (6), 3043-3049, 2012
Progress towards l ead‐free, efficient, and stable perovskite solar cells
ST Thornton, G Abdelmageed, RF Kahwagi, GI Koleilat
Journal of Chemical Technology & Biotechnology 97 (4), 810-829, 2022
Stable efficient methylammonium lead iodide thin film photodetectors with highly oriented millimeter-sized crystal grains
MM Hasan, C Clegg, M Manning, A El Ghanam, C Su, MD Harding, ...
ACS Photonics 7 (1), 57-67, 2019
Photodetectors and photovoltaics based on semiconductor nanocrystals
EH Sargent, G Koleilat, L Levina
US Patent 9,257,582, 2016
Photovoltaic devices with multiple junctions separated by a graded recombination layer
A Barkhouse, X Wang, EH Sargent, G Koleilat, L Brzozowski
US Patent 8,975,509, 2015
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