Optoelectronic Effects of Chemical and Thermal Treatments on CuSbS₂Nanocrystal Thin Films

Abstract: The use of nanocrystalline materials in optoelectronic devices has been studied extensively over the last decade. Their size-dependent properties, low cost, low energy solution processing, and the potential for flexible devices motivate this effort. However, many of these benefits are offset by challenges associated with the surface chemistry and multitude of grain boundaries that exist when nanocrystals are cast into thin films. Nanocrystal surface chemistry and material interfaces determine the key physical … Show more

“…For the [Ag/(Ag + Cu)] ratios of 0 and 5%, there are three vibration peaks at 35, 97, and 330 cm −1 , which are attributed to the vibrational modes of CuSbS 2 . [37][38][39] However, for the [Ag/(Ag + Cu)] ratios of 10%, 15%, and 20%, an extra Raman peak at 300 cm −1 corresponding to the AgSbS 2 phase appears, which are consistent with the results of XRD.…”

A Molecular Precursor‐Based Copper Antimony Sulfide Photodetector with Enhanced Performance by Silver Doping

“…For the [Ag/(Ag + Cu)] ratios of 0 and 5%, there are three vibration peaks at 35, 97, and 330 cm −1 , which are attributed to the vibrational modes of CuSbS 2 . [37][38][39] However, for the [Ag/(Ag + Cu)] ratios of 10%, 15%, and 20%, an extra Raman peak at 300 cm −1 corresponding to the AgSbS 2 phase appears, which are consistent with the results of XRD.…”

A Molecular Precursor‐Based Copper Antimony Sulfide Photodetector with Enhanced Performance by Silver Doping

Impact of Ag-coating on CAS thin film for boosted photoelectrochemical water splitting

Effect of Gamma Radiation on the Physical and Photoelectrochemical Properties of CuSbS2 Thin Films Prepared via Spin-Coating Technique