| Title: |
Interface engineering approach of in air processed Sb2S3 solar cells enabling 7.5 AM 1.5G device efficiency and an 18 indoor milestone performance |
| Authors: |
Hussien, H.; Krunks, M.; Spalatu, N.; Katerski, A.; Jehl Li Kao, Z.; Giraldo, S.; Abou Ras, D.; Valluvar Oli, A.; Siebentritt, S.; Major, J. D.; Almushawwah, A. A.; Shalvey, T. P.; Grzibovskis, R.; Vembris, A.; Oja Acik, I. |
| Source: |
Journal of Materials Chemistry A 13 2025 , p. 37215 37231 |
| Publication Year: |
2025 |
| Collection: |
Helmholtz Zentrum Berlin (HZB): Publications |
| Subject Terms: |
absorber materials; band gap; Sb2S3 |
| Description: |
Among the wide range of emerging absorber materials under development, Sb2S3, with its optimal bandgap of 1.7 eV and distinctive anisotropic properties, stands out as a material offering an excellent trade off between intrinsic stability, cost effective deposition, and high performance under both, AM 1.5G and indoor illumination. While current strategies focus on absorber optimization, interface engineering remains largely unexplored. In this work, we introduce, for the first time, a ZnO interfacial layer deposited via ultrasonic spray pyrolysis USP in air at the TiO2 Sb2S3 interface. This innovation extends to a fully cadmium free device architecture, in which all key layers TiO2 electron transport layer, ZnO interlayer, and Sb2S3 absorber are processed entirely via USP under ambient conditions. A record efficiency of 7.5 under AM 1.5G illumination and an 18 indoor milestone performance is demonstrated for a TiO2 based Sb2S3 solar cell platform, featuring a 150 nm thick absorber the thinnest Sb2S3 absorber delivering such performance to date. Comprehensive characterization reveals the critical role of the ZnO interfacial layer, highlighting its impact on absorber grain size, interface and bulk defects, and device functionality. We propose refinements to indoor measurement protocols, accounting for variations in source temperature and incident power, paving the way for reliable indoor PV performance evaluation |
| Document Type: |
article in journal/newspaper |
| File Description: |
application/pdf |
| Language: |
unknown |
| Availability: |
https://www.helmholtz-berlin.de/pubbin/oai_publication?VT=1&ID=115267 |
| Rights: |
info:eu-repo/semantics/openAccess |
| Accession Number: |
edsbas.1A108E63 |
| Database: |
BASE |