Antimony chalcogenides have become a family of promising photoelectric materials for high‐
efficiency solar cells. To date, single‐junction solar cells based on individual antimony …

A proof‐of‐concept tandem solar cell using Sb2S3 and Sb2Se3 as top and bottom cell
absorber materials is demonstrated. The bandgaps of Sb2S3 and Sb2Se3 are 1.74 and 1.22 …

Sb 2 S 3 thin-film solar cells have recently gained attention due to their low cost, low toxicity,
and simple fabrication. However, there is still plenty of room to improve their performance. It …

Antimony chalcogenides (including Sb2S3, Sb2Se3, and Sb2 (S, Se) 3 alloy) have emerged
as promising solar absorber materials. Notably, the Sb2 (S, Se) 3 alloy possesses …

Antimony chalcogenides are widely studied as a light-absorbing material due to their merits
of low toxicity, efficient cost, and excellent photovoltaic properties. However, the band gaps …

Antimony selenosulfide, Sb2 (S, Se) 3, has emerged as a promising light-harvesting material
due to its high absorption coefficient, suitable bandgap, and low-toxic and low-cost …

Despite the fact that antimony triselenide (Sb2Se3) thin‐film solar cells have undergone
rapid development in recent years, the large open‐circuit voltage (VOC) deficit still remains …

Abstract Antimony triselenide (Sb2Se3) has possessed excellent optoelectronic properties
and has gained interest as a light‐harvesting material for photovoltaic technology over the …

Abstract Antimony selenosulfide (Sb2 (S, Se) 3) solar cells bear great potential for
sustainable photovoltaic technology, attributed to their excellent semiconductor properties …

Here, we manifest the design and simulation of an n-ZnSe/p-Sb 2 Se 3/p+-AgInTe 2 dual-
heterojunction (DH) solar cell which exhibits a prominent efficiency. The performance of the …