Marek Vidiš scite author profile

Marek Vidiš

5Publications

36Citation Statements Received

0Citation Statements Given

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156

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Comenius University Bratislava

Publications

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Gasistor: A memristor based gas-triggered switch and gas sensor with memory

Vidiš

Pleceník

Moško

et al. 2019

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Capacitorlike metal/metal oxide/metal structures are widely used as resistive switching cells and are utilized in resistive random access memories. Recently, it has been demonstrated that they also perform well as gas sensors. In this work, we have merged the gas sensing and resistive switching capabilities of the capacitorlike Pt/TiO2/Pt structures to constitute a simple device which works as a gas-triggered thyristorlike switch and as a gas sensor with a built-in memory.

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Influence of nanoscale TiO2 film thickness on gas sensing properties of capacitor-like Pt/TiO2/Pt sensing structure

Haidry

Pleceník

et al. 2020

Applied Surface Science

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Flexible hydrogen gas sensor based on a capacitor-like Pt/TiO2/Pt structure on polyimide foil

Vidiš

Shpetnyi

Роч

et al. 2021

International Journal of Hydrogen Energy

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Structure evolution and mechanical properties of co-sputtered Zr-Al-B2 thin films

Fiantok

Šroba

Koutná

et al. 2022

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Zirconium diboride (ZrB2) represents a promising hard coating material for demanding high-temperature applications and could provide an excellent basis for fine-tuning mechanical properties via the concept of alloying. Here, combining density functional theory and experiments, we investigate the effect of aluminum alloying on thermally induced structure evolution and mechanical properties of α-structured Zr1 − x Al x B2 + Δ. Ab initio calculations predict a strong tendency for spinodal phase separation of hexagonal Zr1 − x Al x B2 solid solution into isostructural binaries. Experimental results confirm predictions of the insolubility of aluminum in the ZrB2 phase when the structure of magnetron co-sputtered Zr0.72Al0.28B2.64 films with an aluminum content of 8 at. % has a nanocomposite character consisting of hexagonal α-ZrB2 nanocolumns surrounded by an amorphous Al-rich tissue phase. The films are structurally stable up to 1100 °C but out-diffusion of Al atoms from boundary regions during annealing was observed. Al alloying causes a significant decrease in hardness when the hardness of the reference as-deposited ZrB2.2 and Zr0.72Al0.28B2.64 is 39 and 23 GPa, respectively. Low hardening effect in ternaries was observed after annealing at 1000 °C when the hardness increased from 23.5 to 26.5 GPa due to the locally increased concentration of point defects at the boundaries of the nanocolumns and Al-rich tissue phases. Young's modulus decrease from 445 (ZrB2.2) to 345 GPa (Zr0.72Al0.28B2.64) indicates a change in the mechanical response of the ternary film toward more ductile behavior.

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Gas-triggered resistive switching and chemiresistive gas sensor with intrinsic memristive memory

Vidiš¹,

Patrnčiak²,

Moško³

et al. 2023

Sensors and Actuators B: Chemical

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Marek Vidiš

Gasistor: A memristor based gas-triggered switch and gas sensor with memory

Influence of nanoscale TiO2 film thickness on gas sensing properties of capacitor-like Pt/TiO2/Pt sensing structure

Flexible hydrogen gas sensor based on a capacitor-like Pt/TiO2/Pt structure on polyimide foil

Structure evolution and mechanical properties of co-sputtered Zr-Al-B2 thin films

Gas-triggered resistive switching and chemiresistive gas sensor with intrinsic memristive memory

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