We report pulsed laser deposition being a quite suitable growth method for smooth and
transparent p-type copper iodide (CuI) thin films with tailored electrical properties. The film …

Abstract Copper tin sulfide (Cu 2 SnS 3) is an environmentally benign and economical
semiconductor comprising earth-abundant, non-toxic elements with flexible optoelectronic …

Despite the potential applications of γ-CuI thin films that involve significant temperature
variations, few studies focus on the thermal stability of this material. We carried out post …

Precise determination of the chemical composition and structure of copper sulfides is
important to understand the different phase properties. To contribute in this matter, a set of …

Abstract Cs 3 Cu 2 I 5 and CsCu 2 I 3 have shown potential applications as optoelectronic
materials, but the mechanism of their emission remains controversial. It is widely believed …

Abstract Development of transparent and flexible p-type semiconductors has been a
significant challenge for scientific curiosity and industrial interest. Unlike n-type metal oxide …

For every semiconducting material, the long-term stability of thin film characteristics is a
crucial necessity for device applications. This is particularly true for the p-type semiconductor …

The impact of the intentional selenium doping of CuI thin films is investigated concerning
crucial crystalline, electrical and optical properties. For selenium contents in between x …

We report light-assisted iodine ion migration in CuI–a popular wide bandgap p-type
semiconductor, which was synthesized via iodinating Cu film in iodine solution. In-depth …

Pure CuI and Zn-substituted CuI (CuI: Zn) semiconductor thin films, and metal-
semiconductor-metal (MSM) photodetectors were fabricated on glass substrates by a low …