Band anticrossing in GaInNAs alloys W Shan, W Walukiewicz, JW Ager III, EE Haller, JF Geisz, DJ Friedman, ... Physical Review Letters 82 (6), 1221, 1999 | 2064 | 1999 |
Photovoltaic degradation rates—an analytical review DC Jordan, SR Kurtz Progress in photovoltaics: Research and Applications 21 (1), 12-29, 2013 | 1958 | 2013 |
Strong internal and external luminescence as solar cells approach the Shockley–Queisser limit OD Miller, E Yablonovitch, SR Kurtz IEEE Journal of Photovoltaics 2 (3), 303-311, 2012 | 1095 | 2012 |
Consensus stability testing protocols for organic photovoltaic materials and devices MO Reese, SA Gevorgyan, M Jørgensen, E Bundgaard, SR Kurtz, ... Solar Energy Materials and Solar Cells 95 (5), 1253-1267, 2011 | 991 | 2011 |
Superior radiation resistance of alloys: Full-solar-spectrum photovoltaic material system J Wu, W Walukiewicz, KM Yu, W Shan, JW Ager Iii, EE Haller, H Lu, ... Journal of Applied Physics 94 (10), 6477-6482, 2003 | 814 | 2003 |
Design and characterization of GaN∕ InGaN solar cells O Jani, I Ferguson, C Honsberg, S Kurtz Applied Physics Letters 91 (13), 2007 | 696 | 2007 |
Review of failures of photovoltaic modules M Köntges, S Kurtz, CE Packard, U Jahn, KA Berger, K Kato, T Friesen, ... IEA International Energy Agency, 2014 | 680* | 2014 |
Compendium of photovoltaic degradation rates DC Jordan, SR Kurtz, K VanSant, J Newmiller Progress in Photovoltaics: Research and Applications 24 (7), 978-989, 2016 | 577 | 2016 |
High-efficiency GaInP∕ GaAs∕ InGaAs triple-junction solar cells grown inverted with a metamorphic bottom junction JF Geisz, S Kurtz, MW Wanlass, JS Ward, A Duda, DJ Friedman, ... Applied Physics Letters 91 (2), 2007 | 529 | 2007 |
1-eV solar cells with GaInNAs active layer DJ Friedman, JF Geisz, SR Kurtz, JM Olson Journal of Crystal Growth 195 (1-4), 409-415, 1998 | 492 | 1998 |
Terawatt-scale photovoltaics: Transform global energy NM Haegel, H Atwater Jr, T Barnes, C Breyer, A Burrell, YM Chiang, ... Science 364 (6443), 836-838, 2019 | 477 | 2019 |
Terawatt-scale photovoltaics: Trajectories and challenges NM Haegel, R Margolis, T Buonassisi, D Feldman, A Froitzheim, ... Science 356 (6334), 141-143, 2017 | 461 | 2017 |
Best practices handbook for the collection and use of solar resource data for solar energy applications M Sengupta, A Habte, S Wilbert, C Gueymard, J Remund National Renewable Energy Lab.(NREL), Golden, CO (United States), 2021 | 456 | 2021 |
29.5%‐efficient GaInP/GaAs tandem solar cells KA Bertness, SR Kurtz, DJ Friedman, AE Kibbler, C Kramer, JM Olson Applied Physics Letters 65 (8), 989-991, 1994 | 439 | 1994 |
A 27.3% efficient Ga0.5In0.5P/GaAs tandem solar cell JM Olson, SR Kurtz, AE Kibbler, P Faine Applied physics letters 56 (7), 623-625, 1990 | 437 | 1990 |
Nitrogen-Activated Transitions, Level Repulsion, and Band Gap Reduction in with JD Perkins, A Mascarenhas, Y Zhang, JF Geisz, DJ Friedman, JM Olson, ... Physical review letters 82 (16), 3312, 1999 | 434 | 1999 |
Photovoltaic failure and degradation modes DC Jordan, TJ Silverman, JH Wohlgemuth, SR Kurtz, KT VanSant Progress in Photovoltaics: Research and Applications 25 (4), 318-326, 2017 | 380 | 2017 |
Modeling of two‐junction, series‐connected tandem solar cells using top‐cell thickness as an adjustable parameter SR Kurtz, P Faine, JM Olson Journal of Applied Physics 68 (4), 1890-1895, 1990 | 370 | 1990 |
Photocurrent of 1 eV GaInNAs lattice-matched to GaAs JF Geisz, DJ Friedman, JM Olson, SR Kurtz, BM Keyes Journal of Crystal Growth 195 (1-4), 401-408, 1998 | 356 | 1998 |
Optical enhancement of the open-circuit voltage in high quality GaAs solar cells MA Steiner, JF Geisz, I García, DJ Friedman, A Duda, SR Kurtz Journal of Applied Physics 113 (12), 2013 | 338 | 2013 |