Bismuth Oxysulfide Photoelectrodes with Giant Incident Photon‐to‐Current Conversion Efficiency: Chemical Stability in Aqueous Solutions

Abstract: Bismuth oxysulfide (BOS) films demonstrate giant incident photon-to-current conversion efficiency (IPCE @ 100 %) under cathodic polarization. Their photoelectrochemical behavior and corrosion stability in aqueous solutions containing different redox systems ([Fe(CN) 6 ] 3À /[Fe(CN) 6 ] 4À , Fe 3 + /Fe 2 + , I 2 /I À , S n 2À /S 2À ) has been investigated. We established that the chemical stability of the BOS is controlled mainly by three factors: i) potentials of cathodic and anodic destruction of the BOS (Bi … Show more

“…Recently, a new semiconductor materialbismuth oxysulfide (BOS) Bi10O6S9 has been synthesized [22][23][24]. Photoelectrochemical properties of BOS were investigated in details, and in particular a great photoconductivity under electrochemical polarization in various aqueous electrolytes was discovered [22].…”

Bismuth oxysulfide thin films for light and humidity sensing

“…Recently, a new semiconductor materialbismuth oxysulfide (BOS) Bi10O6S9 has been synthesized [22][23][24]. Photoelectrochemical properties of BOS were investigated in details, and in particular a great photoconductivity under electrochemical polarization in various aqueous electrolytes was discovered [22].…”

Bismuth oxysulfide thin films for light and humidity sensing

Preparation of bismuth oxycarbodiimide Bi2O2NCN by a liquid-phase process

Bismuth oxysulfide films with giant external quantum efficiency: Investigation of photoelectrochemical properties and stability in dimethyl sulfoxide solutions for application in photodetectors