Sunlight is the most abundant and inexhaustible energy source on earth. However, its low
energy density, dispersibility and intermittent nature make its direct utilization with industrial …

To accelerate the deployment of hydrogen produced by renewable solar energy, several
technologies have been competitively developed, including photoelectrochemical (PEC) …

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 …

Abstract Binary Sb2Se3 semiconductors are promising as the absorber materials in
inorganic chalcogenide compound photovoltaics due to their attractive anisotropic …

Phase‐change materials (PCMs) are seeing tremendous interest for their use in
reconfigurable photonic devices; however, the most common PCMs exhibit a large …

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 …

Rational manipulation of multimetal hybrid materials (HMs) with tunable substitution or
phases is evolving as an effective strategy to meet the controllable electromagnetic (EM) …

Abstract Antimony selenosulfide, Sb2 (S, Se) 3, has attracted attention over the last few
years as a light-harvesting material for photovoltaic technology owing to its phase stability …

Continuously boosting the power conversion efficiency (PCE) and delving deeper into its
functionalities are essential problems faced by the very new antimony selenosulfide (Sb2 (S …

Zinc oxide (ZnO) has been considered as one of the potential materials in solar cell
applications, owing to its relatively high conductivity, electron mobility, stability against photo …