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Meeting

2026 TMS Annual Meeting & Exhibition

Symposium

Advanced Materials for Energy Conversion and Storage 2026

Presentation Title

Rapid Thermal Selenization Enhanced Efficiency in Antimony Chalcogenide Thin Film Solar Cells

Author(s)

Feng Yan

On-Site Speaker (Planned)

Feng Yan

Abstract Scope

Antimony selenide (Sb2Se3) is a promising material for solar energy conversion due to its low toxicity, high stability, and excellent light absorption capabilities. However, Sb2Se3 films produced via physical vapor deposition often exhibit Se-deficient surfaces, which result in a high carrier recombination and poor device performance. Traditional selenization method is not suitable for superstrated Sb2Se3 devices with the window layer buried underneath the Sb2Se3 light absorber layer, as it can lead to significant diffusion of the window layer material into Sb2Se3 and damage the device. In this work, we have demonstrated a rapid thermal selenization (RTS) technique that can effectively selenize the Sb2Se3 absorber layer while preventing the S diffusion from the buried CdS window layer into the Sb2Se3 absorber layer. The RTS technique significantly reduces carrier recombination loss and carrier transport resistance and can achieve the highest efficiency of 8.25%.

Proceedings Inclusion?

Planned:

Keywords

Energy Conversion and Storage, Thin Films and Interfaces, Surface Modification and Coatings

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