Olindo Isabella
Olindo Isabella
Professor PV technologies and applications, Head of the PVMD group at Delft University of Technology
Verified email at - Homepage
Cited by
Cited by
Solar Energy: The physics and engineering of photovoltaic conversion, technologies and systems
A Smets, K Jäger, O Isabella, R van Swaaij, M Zeman
UIT Cambridge Limited, 2016
Modulated surface textures for enhanced light trapping in thin-film silicon solar cells
O Isabella, J Krč, M Zeman
Applied Physics Letters 97 (10), 2010
High-efficiency silicon heterojunction solar cells: materials, devices and applications
Y Liu, Y Li, Y Wu, G Yang, L Mazzarella, P Procel-Moya, AC Tamboli, ...
Materials Science and Engineering: R: Reports 142, 100579, 2020
Modelling of thin-film silicon solar cells
M Zeman, O Isabella, S Solntsev, K Jäger
Solar Energy Materials and Solar Cells 119, 94-111, 2013
Experimental Demonstration of 4n2 Classical Absorption Limit in Nanotextured Ultrathin Solar Cells with Dielectric Omnidirectional Back Reflector
A Ingenito, O Isabella, M Zeman
ACS photonics 1 (3), 270-278, 2014
IBC c-Si solar cells based on ion-implanted poly-silicon passivating contacts
G Yang, A Ingenito, O Isabella, M Zeman
Solar Energy Materials and Solar Cells 158, 84-90, 2016
3‐D optical modeling of thin‐film silicon solar cells on diffraction gratings
O Isabella, S Solntsev, D Caratelli, M Zeman
Progress in Photovoltaics: Research and Applications 21 (1), 94-108, 2013
Material properties of LPCVD processed n-type polysilicon passivating contacts and its application in PERPoly industrial bifacial solar cells
MK Stodolny, J Anker, BLJ Geerligs, GJM Janssen, BWH Van De Loo, ...
Energy Procedia 124, 635-642, 2017
Nano‐cones on micro‐pyramids: modulated surface textures for maximal spectral response and high‐efficiency solar cells
A Ingenito, O Isabella, M Zeman
Progress in Photovoltaics: Research and Applications 23 (11), 1649-1659, 2015
A simplified skyline-based method for estimating the annual solar energy potential in urban environments
A Calcabrini, H Ziar, O Isabella, M Zeman
Nature Energy 4 (3), 206-215, 2019
Inverted pyramidally-textured PDMS antireflective foils for perovskite/silicon tandem solar cells with flat top cell
F Hou, C Han, O Isabella, L Yan, B Shi, J Chen, S An, Z Zhou, W Huang, ...
Nano energy 56, 234-240, 2019
Modulated surface textures using zinc‐oxide films for solar cells applications
O Isabella, F Moll, J Krč, M Zeman
physica status solidi (a) 207 (3), 642-646, 2010
Micro-textures for efficient light trapping and improved electrical performance in thin-film nanocrystalline silicon solar cells
H Tan, E Psomadaki, O Isabella, M Fischer, P Babal, R Vasudevan, ...
Applied Physics Letters 103 (17), 2013
A silicon carbide-based highly transparent passivating contact for crystalline silicon solar cells approaching efficiencies of 24%
M Köhler, M Pomaska, P Procel, R Santbergen, A Zamchiy, B Macco, ...
Nature Energy, 2021
Optimal design of periodic surface texture for thin-film a-Si: H solar cells
A Cˇampa, O Isabella, R van Erven, P Peeters, H Borg, J Krc, M Topic, ...
Progress in Photovoltaics: Research and Applications 18 (3), 160, 2010
Theoretical evaluation of contact stack for high efficiency IBC-SHJ solar cells
P Procel, G Yang, O Isabella, M Zeman
Solar energy materials and solar cells 186, 66-77, 2018
Design and application of ion-implanted polySi passivating contacts for interdigitated back contact c-Si solar cells
G Yang, A Ingenito, N van Hameren, O Isabella, M Zeman
Applied Physics Letters 108 (3), 2016
Harvesting roadway solar energy—performance of the installed infrastructure integrated PV bike path
A Shekhar, VK Kumaravel, S Klerks, S de Wit, P Venugopal, N Narayan, ...
IEEE Journal of Photovoltaics 8 (4), 1066-1073, 2018
Thin-film silicon-based quadruple junction solar cells approaching 20% conversion efficiency
O Isabella, AHM Smets, M Zeman
Solar Energy Materials and Solar Cells 129, 82-89, 2014
Progress and challenges on scaling up of perovskite solar cell technology
J Yan, TJ Savenije, L Mazzarella, O Isabella
Sustainable Energy & Fuels 6 (2), 243-266, 2022
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