| InP nanowire array solar cells achieving 13.8% efficiency by exceeding the ray optics limit J Wallentin, N Anttu, D Asoli, M Huffman, I Åberg, MH Magnusson, ... Science 339 (6123), 1057-1060, 2013 | 1421 | 2013 |
| Current-matched triple-junction solar cell reaching 41.1% conversion efficiency under concentrated sunlight W Guter, J Schöne, SP Philipps, M Steiner, G Siefer, A Wekkeli, E Welser, ... Applied Physics Letters 94 (22), 2009 | 938 | 2009 |
| Wafer bonded four‐junction GaInP/GaAs//GaInAsP/GaInAs concentrator solar cells with 44.7% efficiency F Dimroth, M Grave, P Beutel, U Fiedeler, C Karcher, TND Tibbits, E Oliva, ... Progress in Photovoltaics: Research and Applications 22 (3), 277-282, 2014 | 773 | 2014 |
| Monolithic photoelectrochemical device for direct water splitting with 19% efficiency WH Cheng, MH Richter, MM May, J Ohlmann, D Lackner, F Dimroth, ... ACS Energy Letters 3 (8), 1795-1800, 2018 | 440 | 2018 |
| Four-junction wafer-bonded concentrator solar cells F Dimroth, TND Tibbits, M Niemeyer, F Predan, P Beutel, C Karcher, ... IEEE Journal of photovoltaics 6 (1), 343-349, 2015 | 397 | 2015 |
| The 2020 photovoltaic technologies roadmap GM Wilson, M Al-Jassim, WK Metzger, SW Glunz, P Verlinden, G Xiong, ... Journal of Physics D: Applied Physics 53 (49), 493001, 2020 | 385 | 2020 |
| Efficient direct solar-to-hydrogen conversion by in situ interface transformation of a tandem structure MM May, HJ Lewerenz, D Lackner, F Dimroth, T Hannappel Nature Communications 6 (1), 8286, 2015 | 342 | 2015 |
| III–V-on-silicon solar cells reaching 33% photoconversion efficiency in two-terminal configuration R Cariou, J Benick, F Feldmann, O Höhn, H Hauser, P Beutel, N Razek, ... Nature Energy 3 (4), 326-333, 2018 | 311 | 2018 |
| Solar hydrogen production by water splitting with a conversion efficiency of 18% G Peharz, F Dimroth, U Wittstadt International Journal of Hydrogen Energy 32 (15), 3248-3252, 2007 | 282 | 2007 |
| Increasing the efficiency of fluorescent concentrator systems JC Goldschmidt, M Peters, A Bösch, H Helmers, F Dimroth, SW Glunz, ... Solar Energy Materials and Solar Cells 93 (2), 176-182, 2009 | 280 | 2009 |
| High-efficiency multijunction solar cells F Dimroth, S Kurtz MRS bulletin 32 (3), 230-235, 2007 | 274 | 2007 |
| Spectral mismatch correction and spectrometric characterization of monolithic III–V multi‐junction solar cells M Meusel, R Adelhelm, F Dimroth, AW Bett, W Warta Progress in Photovoltaics: Research and Applications 10 (4), 243-255, 2002 | 263 | 2002 |
| High‐efficiency solar cells from III‐V compound semiconductors F Dimroth physica status solidi c 3 (3), 373-379, 2006 | 250 | 2006 |
| III-V compounds for solar cell applications AW Bett, F Dimroth, G Stollwerck, OV Sulima Applied Physics A 69, 119-129, 1999 | 249 | 1999 |
| A 19.9%-efficient ultrathin solar cell based on a 205-nm-thick GaAs absorber and a silver nanostructured back mirror HL Chen, A Cattoni, R De Lépinau, AW Walker, O Höhn, D Lackner, ... Nature Energy 4 (9), 761-767, 2019 | 173 | 2019 |
| Fabrication of GaInP/GaAs//Si solar cells by surface activated direct wafer bonding K Derendorf, S Essig, E Oliva, V Klinger, T Roesener, SP Philipps, ... IEEE Journal of Photovoltaics 3 (4), 1423-1428, 2013 | 173 | 2013 |
| Energy harvesting efficiency of III–V triple-junction concentrator solar cells under realistic spectral conditions SP Philipps, G Peharz, R Hoheisel, T Hornung, NM Al-Abbadi, F Dimroth, ... Solar Energy Materials and Solar Cells 94 (5), 869-877, 2010 | 151 | 2010 |
| GaAs converters for high power densities of laser illumination E Oliva, F Dimroth, AW Bett Progress in Photovoltaics: Research and Applications 16 (4), 289-295, 2008 | 145 | 2008 |
| Four‐junction spectral beam‐splitting photovoltaic receiver with high optical efficiency B Mitchell, G Peharz, G Siefer, M Peters, T Gandy, JC Goldschmidt, ... Progress in Photovoltaics: Research and Applications 19 (1), 61-72, 2011 | 144 | 2011 |
| High-voltage GaAs photovoltaic laser power converters J Schubert, E Oliva, F Dimroth, W Guter, R Loeckenhoff, AW Bett IEEE Transactions on Electron Devices 56 (2), 170-175, 2009 | 138 | 2009 |
Martin HermleHead of Research Program Perovskite-Silicon Tandem PhotovoltaicsVerified email at ise.fraunhofer.de
