Structures with alternate semiconductor and nematic nanolayers: formation, properties, application

Abstract: The purpose of this work was to form a periodic multilayer structure with alternate heterophase and heteroaggregate nanolayers using intercalation techniques. The investigation was concerned with layered semiconductor gallium selenide. The stages of formation of a liquid GaSe crystal are described. The results of examination of the obtained samples by the methods of X-ray diffraction and impedance spectroscopy are discussed. The structures of impedance models are given.

“…Structures, with alternate semiconductor and nematic nanolayers, have been thoroughly studied in the literature [6], so this work is an attempt to find new ways to synthesize multilayer nanostructures involving organic and bio-nanocomposite materials. Furthermore, up to date, quite little is known about the bioorganic/inorganic-semiconductor multilayered nanohybrids.…”

The impact of phase state of guest histidine on properties and practical applications of nanohybrids on InSe and GaSe basis

“…Structures, with alternate semiconductor and nematic nanolayers, have been thoroughly studied in the literature [6], so this work is an attempt to find new ways to synthesize multilayer nanostructures involving organic and bio-nanocomposite materials. Furthermore, up to date, quite little is known about the bioorganic/inorganic-semiconductor multilayered nanohybrids.…”

The impact of phase state of guest histidine on properties and practical applications of nanohybrids on InSe and GaSe basis