| Literature DB >> 28058843 |
Evelyn Handick1, Patrick Reinhard2, Regan G Wilks1,3, Fabian Pianezzi2, Thomas Kunze1, Dagmar Kreikemeyer-Lorenzo4, Lothar Weinhardt4,5, Monika Blum5, Wanli Yang6, Mihaela Gorgoi3,7, Eiji Ikenaga8, Dominic Gerlach9, Shigenori Ueda10,11, Yoshiyuki Yamashita9, Toyohiro Chikyow9, Clemens Heske4,5, Stephan Buecheler2, Ayodhya N Tiwari2, Marcus Bär1,3,12.
Abstract
A NaF/KF postdeposition treatment (PDT) has recently been employed to achieve new record efficiencies of Cu(In,Ga)Se2 (CIGSe) thin film solar cells. We have used a combination of depth-dependent soft and hard X-ray photoelectron spectroscopy as well as soft X-ray absorption and emission spectroscopy to gain detailed insight into the chemical structure of the CIGSe surface and how it is changed by different PDTs. Alkali-free CIGSe, NaF-PDT CIGSe, and NaF/KF-PDT CIGSe absorbers grown by low-temperature coevaporation have been interrogated. We find that the alkali-free and NaF-PDT CIGSe surfaces both display the well-known Cu-poor CIGSe chemical surface structure. The NaF/KF-PDT, however, leads to the formation of bilayer structure in which a K-In-Se species covers the CIGSe compound that in composition is identical to the chalcopyrite structure of the alkali-free and NaF-PDT absorber.Entities:
Keywords: X-ray spectroscopy; alkali postdeposition treatment; chalcopyrite thin-film solar cells; chemical surface structure; photoelectron spectroscopy
Year: 2017 PMID: 28058843 DOI: 10.1021/acsami.6b11892
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229