Publications by authors named "Sule Ates"

The increasing demand for safe and high-energy-density battery systems has led to intense research into solid electrolytes for rechargeable batteries. One of these solid electrolytes is the NASICON-type LiAlTi(PO) (LATP) material. In this study, different boron compounds (10% BO doped, 10% HBO doped, and 5% BO + 5% HBO doped) were doped at total 10 wt.

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Ultrathin MoO semiconductor nanostructures have garnered significant interest as a promising nanomaterial for transparent nano- and optoelectronics, owing to their exceptional reactivity. Due to the shortage of knowledge about the electronic and optoelectronic properties of MoO/-Si via an ALD system of few nanometers, we utilized the preparation of an ultrathin MoO film at temperatures of 100, 150, 200, and 250 °C. The effect of the depositing temperatures on using bis(tbutylimido)bis(dimethylamino)molybdenum (VI) as a molybdenum source for highly stable UV photodetectors were reported.

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This study was on the optoelectronic properties of multilayered two-dimensional MoS and WS materials on a silicon substrate using sputtering physical vapor deposition (PVD) and chemical vapor deposition (CVD) techniques. For the first time, we report ultraviolet (UV) photoresponses under air, CO, and O environments at different flow rates. The electrical Hall effect measurement showed the existence of MoS (n-type)/Si (p-type) and WS (P-type)/Si (p-type) heterojunctions with a higher sheet carrier concentration of 5.

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The application of the photonic superlattice in advanced photonics has become a demanding field, especially for two-dimensional and strongly correlated oxides. Because it experiences an abrupt metal-insulator transition near ambient temperature, where the electrical resistivity varies by orders of magnitude, vanadium oxide (VO) shows potential as a building block for infrared switching and sensing devices. We reported a first principle study of superlattice structures of VOas a strongly correlated phase transition material and tungsten diselenide (WSe) as a two-dimensional transition metal dichalcogenide layer.

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