| 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 | 2094 | 1999 |
| Six-junction III–V solar cells with 47.1% conversion efficiency under 143 Suns concentration JF Geisz, RM France, KL Schulte, MA Steiner, AG Norman, HL Guthrey, ... Nature energy 5 (4), 326-335, 2020 | 882 | 2020 |
| 40.8% efficient inverted triple-junction solar cell with two independently metamorphic junctions JF Geisz, DJ Friedman, JS Ward, A Duda, WJ Olavarria, TE Moriarty, ... Applied Physics Letters 93 (12), 2008 | 647 | 2008 |
| Raising the one-sun conversion efficiency of III–V/Si solar cells to 32.8% for two junctions and 35.9% for three junctions S Essig, C Allebé, T Remo, JF Geisz, MA Steiner, K Horowitz, L Barraud, ... Nature Energy 2 (9), 1-9, 2017 | 633 | 2017 |
| 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 | 547 | 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 | 498 | 1998 |
| III–N–V semiconductors for solar photovoltaic applications JF Geisz, DJ Friedman Semiconductor Science and Technology 17 (8), 769, 2002 | 445 | 2002 |
| 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 | 435 | 1999 |
| 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 | 361 | 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 | 360 | 2013 |
| Enhanced external radiative efficiency for 20.8% efficient single-junction GaInP solar cells JF Geisz, MA Steiner, I Garcia, SR Kurtz, DJ Friedman Applied Physics Letters 103 (4), 2013 | 350 | 2013 |
| Large, nitrogen-induced increase of the electron effective mass in C Skierbiszewski, P Perlin, P Wisniewski, W Knap, T Suski, ... Applied Physics Letters 76 (17), 2409-2411, 2000 | 335 | 2000 |
| Structural changes during annealing of GaInAsN S Kurtz, J Webb, L Gedvilas, D Friedman, J Geisz, J Olson, R King, ... Applied Physics Letters 78 (6), 748-750, 2001 | 305 | 2001 |
| Carrier control in Sn–Pb perovskites via 2D cation engineering for all-perovskite tandem solar cells with improved efficiency and stability J Tong, Q Jiang, AJ Ferguson, AF Palmstrom, X Wang, J Hao, SP Dunfield, ... Nature Energy 7 (7), 642-651, 2022 | 274 | 2022 |
| Multi-junction solar cells paving the way for super high-efficiency M Yamaguchi, F Dimroth, JF Geisz, NJ Ekins-Daukes Journal of Applied Physics 129 (24), 2021 | 267 | 2021 |
| Building a six-junction inverted metamorphic concentrator solar cell JF Geisz, MA Steiner, N Jain, KL Schulte, RM France, WE McMahon, ... IEEE Journal of Photovoltaics 8 (2), 626-632, 2017 | 241 | 2017 |
| Sunlight absorption in water–efficiency and design implications for photoelectrochemical devices H Döscher, JF Geisz, TG Deutsch, JA Turner Energy & Environmental Science 7 (9), 2951-2956, 2014 | 239 | 2014 |
| Effect of nitrogen on the band structure of GaInNAs alloys W Shan, W Walukiewicz, JW Ager III, EE Haller, JF Geisz, DJ Friedman, ... Journal of applied physics 86 (4), 2349-2351, 1999 | 224 | 1999 |
| Triple-junction solar cells with 39.5% terrestrial and 34.2% space efficiency enabled by thick quantum well superlattices RM France, JF Geisz, T Song, W Olavarria, M Young, A Kibbler, ... Joule 6 (5), 1121-1135, 2022 | 185 | 2022 |
| Band anticrossing in III–N–V alloys W Shan, W Walukiewicz, KM Yu, JW Ager Iii, EE Haller, JF Geisz, ... physica status solidi (b) 223 (1), 75-85, 2001 | 180 | 2001 |
Daniel J. FriedmanNational Renewable Energy LaboratoryVerified email at nrel.gov
