The wide bandgap Sb2S3 is considered to be one of the most promising absorber layers in
single‐junction solar cells and a suitable top‐cell candidate for multi‐junction (tandem) solar …

Antimony chalcogenides such as Sb2S3, Sb2Se3, and Sb2 (SxSe1− x) 3 have emerged as
very promising alternative solar absorber materials due to their high stability, abundant …

Although many environmentally friendly and non-toxic materials have been investigated for
photovoltaic conversion (PVC) applications, Sb 2 S 3 is the material of choice as an …

Abstract Antimony sulfide (Sb 2 S 3) has great potential as a promising wide–bandgap, low–
cost, low–toxicity, and stable photovoltaic material for next–generation indoor and tandem …

Abstract Sb 2 (S 1-x, Se x) 3 compounds with tunable band gap values received
considerable attention as solar absorber candidates for efficient thin film solar cells …

Different from traditional methods, ultrasound sonochemical synthesis can create very
special reaction conditions by virtue of the effects of acoustic cavitation. The localized spots …

Synthesis of antimony chalcogenides, especially Sb 2 S 3, by facile and area scalable in-air
chemical methods, such as spray pyrolysis, from cost-effective chemicals is certain to …

A high-performance catalyst, O-doped Sb2S3 nanosheets (SS–O NSs), is synthesized and
introduced into lithium–sulfur batteries. Owing to their good conductivity, strong …

Photovoltaic power generation, as a rapidly growing new energy source, is a technology that
uses a semiconductor to convert light energy into electrical energy. Sb2S3 solar cells …

In this paper, we report deposition of in situ crystallized photoconductive Sb 2 S 3 thin films
by direct ultrasonic spray pyrolysis using a non-aqueous precursor solution containing …