Photovoltaic materials, history, status and outlook A Goetzberger, C Hebling, HW Schock Materials science and engineering: R: Reports 40 (1), 1-46, 2003 | 1602 | 2003 |
Chalcogenide photovoltaics: physics, technologies, and thin film devices R Scheer, HW Schock John Wiley & Sons, 2011 | 899 | 2011 |
Determination of defect distributions from admittance measurements and application to Cu(In,Ga)Se2 based heterojunctions T Walter, R Herberholz, C Müller, HW Schock Journal of applied physics 80 (8), 4411-4420, 1996 | 887 | 1996 |
Chalcopyrite/defect chalcopyrite heterojunctions on the basis of CuInSe2 D Schmid, M Ruckh, F Grunwald, HW Schock Journal of Applied Physics 73 (6), 2902-2909, 1993 | 821 | 1993 |
Electronic properties of Cu (In, Ga) Se2 heterojunction solar cells–recent achievements, current understanding, and future challenges U Rau, HW Schock Applied Physics A 69, 131-147, 1999 | 811 | 1999 |
Texture etched ZnO: Al coated glass substrates for silicon based thin film solar cells O Kluth, B Rech, L Houben, S Wieder, G Schöpe, C Beneking, H Wagner, ... Thin solid films 351 (1-2), 247-253, 1999 | 745 | 1999 |
Cu2ZnSnS4 thin film solar cells from electroplated precursors: Novel low-cost perspective A Ennaoui, M Lux-Steiner, A Weber, D Abou-Ras, I Kötschau, HW Schock, ... Thin solid films 517 (7), 2511-2514, 2009 | 562 | 2009 |
ZnO/CdS/CuInSe2 thin‐film solar cells with improved performance L Stolt, J Hedström, J Kessler, M Ruckh, KO Velthaus, HW Schock Applied Physics Letters 62 (6), 597-599, 1993 | 553 | 1993 |
On the Sn loss from thin films of the material system Cu–Zn–Sn–S in high vacuum A Weber, R Mainz, HW Schock Journal of Applied Physics 107 (1), 2010 | 446 | 2010 |
Electronic properties of -based heterojunction solar cells. Part I. Transport analysis V Nadenau, U Rau, A Jasenek, HW Schock Journal of Applied Physics 87 (1), 584-593, 2000 | 439 | 2000 |
Effects of Sodium on Polycrystalline Cu(In,Ga)Se2 and Its Solar Cell Performance L Kronik, D Cahen, HW Schock Advanced Materials 10 (1), 31-36, 1998 | 436 | 1998 |
Cu2ZnSnS4 thin film solar cells by fast coevaporation BA Schubert, B Marsen, S Cinque, T Unold, R Klenk, S Schorr, ... Progress in Photovoltaics: Research and Applications 19 (1), 93-96, 2011 | 392 | 2011 |
CuInS2 based thin film solar cell with 10.2% efficiency R Scheer, T Walter, HW Schock, ML Fearheiley, HJ Lewerenz Applied Physics Letters 63 (24), 3294-3296, 1993 | 390 | 1993 |
A model for the successful growth of polycrystalline films of CuInSe2 by multisource physical vacuum evaporation R Klenk, T Walter, HW Schock, D Cahen Advanced Materials 5 (2), 114-119, 1993 | 359 | 1993 |
Distinction between bulk and interface states in by space charge spectroscopy R Herberholz, M Igalson, HW Schock Journal of Applied Physics 83 (1), 318-325, 1998 | 337 | 1998 |
Interpretation of admittance, capacitance-voltage, and current-voltage signatures in Cu (In, Ga) Se2 thin film solar cells T Eisenbarth, T Unold, R Caballero, CA Kaufmann, HW Schock Journal of Applied Physics 107 (3), 2010 | 334 | 2010 |
Stability Issues of Cu(In,Ga)Se2-Based Solar Cells JF Guillemoles, L Kronik, D Cahen, U Rau, A Jasenek, HW Schock The Journal of Physical Chemistry B 104 (20), 4849-4862, 2000 | 330 | 2000 |
CIGS‐based solar cells for the next millennium HW Schock, R Noufi Progress in Photovoltaics: Research and Applications 8 (1), 151-160, 2000 | 316 | 2000 |
ZnO/CdS/Cu (In, Ga) Se/sub 2/thin film solar cells with improved performance J Hedstrom, H Ohlsen, M Bodegard, A Kylner, L Stolt, D Hariskos, ... Conference Record of the Twenty Third IEEE Photovoltaic Specialists …, 1993 | 309 | 1993 |
A new approach to high-efficiency solar cells by band gap grading in Cu (In, Ga) Se2 chalcopyrite semiconductors T Dullweber, U Rau, HW Schock Solar Energy Materials and Solar Cells 67 (1-4), 145-150, 2001 | 285 | 2001 |