Daniel J. Friedman
Cited by
Cited by
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
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
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
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
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
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
III–N–V semiconductors for solar photovoltaic applications
JF Geisz, DJ Friedman
Semiconductor Science and Technology 17 (8), 769, 2002
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
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
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
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
Dilute nitride GaInNAs and GaInNAsSb solar cells by molecular beam epitaxy
DB Jackrel, SR Bank, HB Yuen, MA Wistey, JS Harris, AJ Ptak, ...
Journal of Applied Physics 101 (11), 2007
Progress and challenges for next-generation high-efficiency multijunction solar cells
DJ Friedman
Current Opinion in Solid State and Materials Science 14 (6), 131-138, 2010
Multi-junction, monolithic solar cell using low-band-gap materials lattice matched to GaAs or Ge
JM Olson, SR Kurtz, DJ Friedman
US Patent 6,281,426, 2001
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
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
Thermophotovoltaic efficiency of 40%
A LaPotin, KL Schulte, MA Steiner, K Buznitsky, CC Kelsall, DJ Friedman, ...
Nature 604 (7905), 287-291, 2022
Final-state effects in photoelectron diffraction
DJ Friedman, CS Fadley
Journal of Electron Spectroscopy and Related Phenomena 51, 689-700, 1990
Application of a novel multiple scattering approach to photoelectron diffraction and Auger electron diffraction
AP Kaduwela, DJ Friedman, CS Fadley
Journal of Electron Spectroscopy and Related Phenomena 57 (3-4), 223-278, 1991
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
The system can't perform the operation now. Try again later.
Articles 1–20