Recent developments in antimony chalcogenide (Sb2X3, X= S, Se, or SxSe1− x) solar cells
attract significant scientific and technological interest in the renewable energy community …

Thin-film solar cells have been referred to as second-generation solar photovoltaics (PV) or
next-generation solutions for the renewable energy industry. The layer of absorber materials …

Abstract Antimony Sulfide (Sb 2 S 3) is intriguing wide bandgap photovoltaic (PV) material,
having great potential for next generation PV devices. The record power conversion …

Inorganic-based thin-film photovoltaics (TFPV) represents an important component of the
growing low-carbon energy market and plays a vital role in the drive toward lower cost and …

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

Abstract Antimony chalcogenide, Sb2X3 (X= S, Se), applications greatly benefit from efficient
charge transport along covalently bonded (001) oriented (Sb4X6) n ribbons, making thin film …

Photobattery technology using a single active material for simultaneous solar energy
harvesting and storage presents a significant leap in solar energy storage for low‐power IoT …

Antimony sesquisulfide Sb2S3 has become an outstanding advanced functional material in
a variety of rapidly growing application fields: smart integrated photonics from the visible to …

The application of double buffer layers has been proven to be a beneficial approach for the
enhancement of the power conversion efficiency (PCE) of antimony sulfide (Sb 2 S 3) thin …

Sb2 (S, Se) 3 is a technologically intriguing material for the next generation of flexible and
lightweight photovoltaic (PV) devices. Recently, photoelectric conversion efficiency (PCE) …