| 1419 - 1420 |
Introduction to the special issue: Thin film and nanostructured solar cells
Ennaoui A |
| 1421 - 1436 |
The path towards a high-performance solution-processed kesterite solar cell
Mitzi DB, Gunawan O, Todorov TK, Wang K, Guha S |
| 1437 - 1440 |
Tapered aluminum-doped vertical zinc oxide nanorod arrays as light coupling layer for solar energy applications
Chen J, Ye H, Ae L, Tang Y, Kieven D, Rissom T, Neuendorf J, Lux-Steiner MC |
| 1441 - 1445 |
Development of CuInS2-based solar cells and modules
Klenk R, Klaer J, Koble C, Mainz R, Merdes S, Rodriguez-Alvarez H, Scheer R, Schock HW |
| 1446 - 1451 |
A superstrate solar cell based on In-2(Se,S)(3) and CuIn(Se,S)(2) thin films fabricated by electrodeposition combined with annealing
Ikeda S, Kamai R, Lee SM, Yagi T, Harada T, Matsumura M |
| 1452 - 1462 |
Analysis of Cu(In,Ga)(S,Se)(2) thin-film solar cells by means of electron microscopy
Abou-Ras D, Dietrich J, Kavalakkatt J, Nichterwitz M, Schmidt SS, Koch CT, Caballero R, Klaer J, Rissom T |
| 1463 - 1470 |
Impacts of pulsed-laser assisted deposition on CIGS thin films and solar cells
Nakada T, Shirakata S |
| 1471 - 1476 |
What limits the efficiency of chalcopyrite solar cells?
Siebentritt S |
| 1477 - 1481 |
CuIn1-xGaxSe2 growth process modifications: Influences on microstructure, Na distribution, and device properties
Seyrling S, Chirila A, Guttler D, Blosch P, Pianezzi F, Verma R, Bucheler S, Nishiwaki S, Romanyuk YE, Rossbach P, Tiwari AN |
| 1482 - 1488 |
The crystal structure of kesterite type compounds: A neutron and X-ray diffraction study
Schorr S |
| 1489 - 1494 |
Engineering of hybrid interfaces in organic photovoltaic devices
Fostiropoulos K, Rusu M |
| 1495 - 1508 |
Synchrotron-based spectroscopy for the characterization of surfaces and interfaces in chalcopyrite thin-film solar cells
Lauermann I, Bar M, Fischer CH |
| 1509 - 1517 |
Progress in chalcopyrite compound semiconductor research for photovoltaic applications and transfer of results into actual solar cell production
Jager-Waldau A |
| 1518 - 1526 |
The spray-ILGAR (R) (ion layer gas reaction) method for the deposition of thin semiconductor layers: Process and applications for thin film solar cells
Fischer CH, Allsop NA, Gledhill SE, Kohler T, Kruger M, Saez-Araoz R, Fu YP, Schwieger R, Richter J, Wohlfart P, Bartsch P, Lichtenberg N, Lux-Steiner MC |
| 1527 - 1536 |
Concepts of inorganic solid-state nanostructured solar cells
Dittrich T, Belaidi A, Ennaoui A |
| 1537 - 1543 |
Nanoscale investigations of the electronic surface properties of Cu(In,Ga)Se-2 thin films by scanning tunneling spectroscopy
Monig H, Caballero R, Kaufmann CA, Schmidt TL, Lux-Steiner MC, Sadewasser S |
| 1544 - 1549 |
High efficiency cadmium free Cu(In,Ga)Se-2 thin film solar cells terminated by an electrodeposited front contact
Rousset J, Donsanti F, Genevee P, Renou G, Lincot D |
| 1550 - 1554 |
Analytical versus numerical analysis of back grading in CIGS solar cells
Decock K, Khelifi S, Burgelman M |
| 1555 - 1580 |
CuGaxSey chalcopyrite-related thin films grown by chemical close-spaced vapor transport (CCSVT) for photovoltaic application: Surface- and bulk material properties, oxidation and surface Ge-doping
Rusu M, Wiesner S, Wurz R, Lehmann S, Doka-Yamigno S, Meeder A, Marron DF, Bar M, Koteski V, Mahnke HE, Arushanov E, Beckmann J, Hohn K, Fritsch W, Bohne W, Schubert-Bischoff P, Heuken M, Jager-Waldau A, Rumberg A, Schedel-Niedrig T |
