Photodetecting properties on Sn-doped Bi₂S₃ thin film fabricated by nebulizer spray pyrolysis technique

Abstract: Metal chalcogenides have recently gained intensive attention due to their tunable bandgap energy, optoelectronic characteristics, and exceptional optical absorption. Because of the potential advantage of photodetectors, photovoltaic, holographic recording systems, and field-effect transistors, bismuth tri-sulfide (Bi2S3) crystals, in particular, have attracted a lot of focus in scientific research. In this study, the low-cost nebulizer spray technique was employed to synthesize the proposed Bi2S3:Sn thin films… Show more

“…Various physical methods like mechanical milling, 59 ultra-sonication or liquid phase exfoliation 60 and electron spray pyrolysis 61 are used.…”

Response surface methodology: a powerful tool for optimizing the synthesis of metal sulfide nanoparticles for dye degradation

“…Various physical methods like mechanical milling, 59 ultra-sonication or liquid phase exfoliation 60 and electron spray pyrolysis 61 are used.…”

Response surface methodology: a powerful tool for optimizing the synthesis of metal sulfide nanoparticles for dye degradation

“…These approaches may miss the longer‐term reaction processes, but they provide essential information on the rates of sulfide film generation and its characteristics. Because of its stability, more significant band gap, and photoconductive activity, [16] indium sulfide is a strong competitor for several technical applications in the photoelectric and photovoltaic sectors [17,18] . Additionally, it works well as a non‐toxic replacement for CdS in solar cells made of copper, indium, gallium, and Sulfur (CIGS).…”

Inhibitive Action of Sulfide Ions on Corrosion and Enhancing Charge‐Discharge Efficiency of Zinc and Zinc‐Indium Alloy as Anode for Alkaline Batteries

Simplistic preparation of Sn-doped MgIn2S4 for photocatalytic organic dye degradation under visible light irradiation