Abstract Antimony selenide (Sb2Se3) is a kind of emerging candidate for the application in
low‐cost and high‐efficiency thin film solar cells owing to its non‐toxicity, earth‐abundance …

Antimony selenide (Sb2Se3) is an auspicious material for solar energy conversion that has
seen rapid improvement over the past ten years, but the photovoltage deficit remains a …

The development of multifunctional devices could represent a significant advancement in
meeting the need for nano and micro technologies. Therefore, we have developed a …

Abstract Antimony selenide (Sb2Se3) is a promising absorber material for thin-film
photovoltaics. However, certain areas of fundamental understanding of this material remain …

The rapidly expanding demand for photovoltaics (PVs) requires stable, quick, and easy to
manufacture solar cells based on socioeconomically and ecologically viable earth-abundant …

Develo** cost-effective photoelectrodes with a low band gap in the NIR-visible regions
remains a challenge to achieve effective hydrogen production. We report the details of …

Abstract Inorganic molecular Crystals (IMCs) is an emerging class of two-dimensional (2D)
materials having unconnected structural units. In contrast to the conventional 2D materials …

Earth-abundant antimony selenide (Sb 2 Se 3) is a promising material for the thin-film
photovoltaic applications due to its desirable optoelectronic properties and suitable band …

Despite the extensive research conducted on the antimony borate glasses, further
investigation is required to explore their structural characteristics when Sb2O3 replaces …

The short-wavelength infrared region of the solar spectrum remains largely untapped. The
development of small band gap (0.7–1.1 eV) photovoltaic devices that will complement …