Synthesizing high-quality films with superior morphological, electrical, and defect properties
is the basic requirement for obtaining high-efficiency solar cells. Recently, Sb2Se3 has been …

The emerging antimony chalcogenide (Sb2 (SxSe1− x) 3, 0≤ x≤ 1) semiconductors are
featured as quasi‐1D structures comprising (Sb4S (e) 6) n ribbons, this structural …

Compounds made up of metalloid/metallic cations and chalcogen anions like SnS, GeSe,
and Sb 2 Se 3 have made a nonnegotiable impact in new and emerging absorbers for thin …

Abstract Antimony selenide (Sb 2 Se 3) is a potential photovoltaic (PV) material for next-
generation solar cells and has achieved great development in the last several years. The …

Abstract Antimony sulfide (Sb2S3) with a 1D molecular structure has strong bending
characteristics, showing great application potential in flexible devices. Herein, the flexible …

Abstract Antimony selenide (Sb 2 Se 3) is a possible semiconductor material for next-
generation solar cells and has reached excellent development in recent years. The (hk1) …

The antimony selenide thin film solar cells technology becomes promising due to its
excellent anisotropic charge transport and brilliant light absorption capability. Especially, the …

Solar cells comprising earth‐abundant and non‐toxic elements with applicable bandgaps
and high absorption coefficients have attracted considerable interest over the past several …

Investigations into novel device architectures and interfaces that enhance charge transport
and collection are necessary to increase the power conversion efficiency (PCE) of antimony …

There has been a recent surge in interest toward thin film-based solar cells, specifically new
absorber materials composed by Earth-abundant and non-toxic elements. Among these …