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28 results on '"Gabrusenoks, Jevgenijs"'

1. Deposition of Ga2O3 thin films by liquid metal target sputtering

Author

Zubkins, Martins, Vibornijs, Viktors, Strods, Edvards, Butanovs, Edgars, Bikse, Liga, Ottosson, Mikael, Hallén, Anders, Gabrusenoks, Jevgenijs, Purans, Juris, and Azens, Andris

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

This paper reports on the deposition of amorphous and crystalline thin films of Ga2O3 by reactive pulsed direct current magnetron sputtering from a liquid gallium target onto fused (f-) quartz and c plane (c-) sapphire substrates, where the temperature of the substrate is varied from room temperature (RT) to 800{\deg}C. The deposition rate (up to 37 nm/min at RT on f-quartz and 5 nm/min at 800{\deg}C on c-sapphire) is two to five times higher than the data given in the literature for radio frequency sputtering. Deposited onto unheated substrates, the films are X-ray amorphous. Well-defined X-ray diffraction peaks of \b{eta}-Ga2O3 start to appear at a substrate temperature of 500{\deg}C. Films grown on c-sapphire at temperatures above 600{\deg}C are epitaxial. However, the high rocking curve full width at half maximum values of {\approx} 2.4-2.5{\deg} are indicative of the presence of defects. A dense and void-free microstructure is observed in electron microscopy images. Composition analysis show stoichiometry close to Ga2O3 and no traces of impurities. The optical properties of low absorptance (<1%) in the visible range and an optical band gap of approximately 5 eV are consistent with the data in the literature for Ga2O3 films produced by other deposition methods., Comment: 15 pages, 6 figures

Published
2023
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2. Amorphous p-Type Conducting Zn-x Ir Oxide (x > 0.13) Thin Films Deposited by Reactive Magnetron Cosputtering

Author

Zubkins, Martins, Timoshenko, Janis, Gabrusenoks, Jevgenijs, Pudzs, Kaspars, Azens, Andris, Wang, Qin, and Purans, Juris

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

Zinc-iridium oxide (Zn-Ir-O) thin films have been demonstrated as a p-type conducting material. However, the stability of p-type conductivity with respect to chemical composition or temperature is still unclear. In this study we discuss the local atomic structure and the electrical properties of Zn-Ir-O films in the large Ir concentration range. The films are deposited by reactive DC magnetron co-sputtering at two different substrate temperatures-without intentional heating and at 300 {\deg}C. Extended X-ray absorption fine structure (EXAFS) analysis reveals that strongly disordered ZnO4 tetrahedra are the main Zn complexes in Zn-Ir-O films with up to 67.4 at% Ir. As the Ir concentration increases, an effective increase of Ir oxidation state is observed. Reverse Monte Carlo analysis of EXAFS at Zn K-edge shows that the average Zn-O interatomic distance and disorder factor increase with the Ir concentration. We observed that the nano-crystalline w-ZnO structure is preserved in a wider Ir concentration range if the substrate is heated during deposition. At low Ir concentration, the transition from n- to p-type conductivity is observed regardless of the temperature of the substrates. Electrical resistivity decreases exponentially with the Ir concentration in the Zn-Ir-O films.

Published
2022
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6. Synthesis and Investigation of ReSe 2 Thin Films Obtained from Magnetron Sputtered Re and ReO x.

Author

Kadiwala, Kevon, Dipane, Luize, Dipans, Eriks, Bundulis, Arturs, Zubkins, Martins, Ogurcovs, Andrejs, Gabrusenoks, Jevgenijs, Bocharov, Dmitry, Butanovs, Edgars, and Polyakov, Boris

Subjects
MAGNETRON sputtering, THIN films, NONLINEAR optics, X-ray photoelectron spectroscopy, ATOMIC force microscopy
Abstract

The promise of two-dimensional (2D) rhenium diselenide (ReSe2) in electronics and optoelectronics has sparked considerable interest in this material. However, achieving the growth of high-quality ReSe2 thin films on a wafer scale remains a significant challenge. In this study, we adopted a two-step method to produce ReSe2 thin films by combining magnetron sputtering of Re and ReOx onto flat substrates with subsequent selenization via atmospheric pressure chemical vapor transport (CVT). After analyzing the produced films using X-ray diffraction to identify the crystalline phase in formed thin film and scanning electron microscopy (SEM) to examine surface morphology, it was determined that the suitable temperature range for the 15 min selenization process with CVT is 650 °C–750 °C. Further investigation of these optimally produced ReSe2 thin films included atomic force microscopy (AFM), X-ray photoelectron spectroscopy, and Raman spectroscopy. The bulk electrical analysis of these films and AFM and SEM surface morphology revealed a strong reliance on the type of precursor material used for their synthesis, whereas optical measurements indicated a potential for the films in non-linear optics applications, irrespective of the precursor or temperature used. This study not only provides a new pathway for the growth of ReSe2 films but also sheds light on the synthesis approaches of other 2D transition metal dichalcogenide materials. [ABSTRACT FROM AUTHOR]

Published
2024
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8. Vibrational Spectroscopy of YAlO3.

Author

Tipaldi, Ciro Federico, Gabrusenoks, Jevgenijs, and Chikvaidze, George

Subjects
*AB-initio calculations, *LATTICE dynamics, *SOLID state physics, *REFLECTANCE spectroscopy, *RAMAN spectroscopy, *VIBRATIONAL spectra
Abstract

Perovskites have long been materials of interest in solid‐state physics. Their structure leads them to exhibit various characteristics which have both theoretical and practical interest. Lattice dynamics can give a lot of insight into a material's nature such as phase transitions, thus the research presented here focuses on that, by doing a comprehensive vibrational and structural investigation of monocrystalline YAlO3 (YAP). Polarized Raman and infrared (IR) reflectance spectroscopy are used alongside ab initio and classical calculations. In the course of this work, complete Raman spectra have been obtained, confirming new vibrational modes, predicted by ab initio calculations but previously not observed experimentally. IR reflectance spectra have been obtained for the first time for this material. Classical molecular dynamics has been employed to calculate the phonon dispersion and density of states. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Vibrational Spectroscopy of YAlO3.

Author

Tipaldi, Ciro Federico, Gabrusenoks, Jevgenijs, and Chikvaidze, George

Subjects
AB-initio calculations, LATTICE dynamics, SOLID state physics, REFLECTANCE spectroscopy, RAMAN spectroscopy, VIBRATIONAL spectra
Abstract

Perovskites have long been materials of interest in solid‐state physics. Their structure leads them to exhibit various characteristics which have both theoretical and practical interest. Lattice dynamics can give a lot of insight into a material's nature such as phase transitions, thus the research presented here focuses on that, by doing a comprehensive vibrational and structural investigation of monocrystalline YAlO3 (YAP). Polarized Raman and infrared (IR) reflectance spectroscopy are used alongside ab initio and classical calculations. In the course of this work, complete Raman spectra have been obtained, confirming new vibrational modes, predicted by ab initio calculations but previously not observed experimentally. IR reflectance spectra have been obtained for the first time for this material. Classical molecular dynamics has been employed to calculate the phonon dispersion and density of states. [ABSTRACT FROM AUTHOR]

Published
2024
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12. Deposition of Ga2O3 thin films by liquid metal target sputtering

Author

Zubkins, Martins, primary, Vibornijs, Viktors, additional, Strods, Edvards, additional, Butanovs, Edgars, additional, Bikse, Liga, additional, Ottosson, Mikael, additional, Hallén, Anders, additional, Gabrusenoks, Jevgenijs, additional, Purans, Juris, additional, and Azens, Andris, additional

Published
2023
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13. Luminescence Properties of Epitaxial Cu 2 O Thin Films Electrodeposited on Metallic Substrates and Cu 2 O Single Crystals.

Author

Trinkler, Laima, Dai, Dajin, Chang, Liuwen, Chou, Mitch Ming-Chi, Wu, Tzu-Ying, Gabrusenoks, Jevgenijs, Nilova, Dace, Ruska, Rihards, Berzina, Baiba, and Nedzinskas, Ramunas

Subjects
METALLIC thin films, SINGLE crystals, COPPER, METALLIC films, THIN films, LUMINESCENCE, COPPER films
Abstract

The luminescent properties of epitaxial Cu2O thin films were studied in 10–300 K temperature range and compared with the luminescent properties of Cu2O single crystals. Cu2O thin films were deposited epitaxially via the electrodeposition method on either Cu or Ag substrates at different processing parameters, which determined the epitaxial orientation relationships. Cu2O (100) and (111) single crystal samples were cut from a crystal rod grown using the floating zone method. Luminescence spectra of thin films contain the same emission bands as single crystals around 720, 810 and 910 nm, characterizing V O 2 + , V O + and V Cu defects, correspondingly. Additional emission bands, whose origin is under discussion, are observed around 650–680 nm, while the exciton features are negligibly small. The relative mutual contribution of the emission bands varies depending on the thin film sample. The existence of the domains of crystallites with different orientations determines the polarization of luminescence. The PL of both Cu2O thin films and single crystals is characterized by negative thermal quenching in the low-temperature region; the reason of this phenomenon is discussed. [ABSTRACT FROM AUTHOR]

Published
2023
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18. Tribovoltaic Device Based on the W/WO3 Schottky Junction Operating through Hot Carrier Extraction

Author

Šutka, Andris, primary, Zubkins, Martins, additional, Linarts, Artis, additional, Lapčinskis, Linards, additional, Ma̅lnieks, Kaspars, additional, Verners, Osvalds, additional, Sarakovskis, Anatolijs, additional, Grzibovskis, Raitis, additional, Gabrusenoks, Jevgenijs, additional, Strods, Edvards, additional, Smits, Krisjanis, additional, Vibornijs, Viktors, additional, Bikse, Liga, additional, and Purans, Juris, additional

Published
2021
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20. Amorphous p‐Type Conducting Zn–xIr Oxide (x > 0.13) Thin Films Deposited by Reactive Magnetron Cosputtering.

Author

Zubkins, Martins, Timoshenko, Janis, Gabrusenoks, Jevgenijs, Pudzs, Kaspars, Azens, Andris, Wang, Qin, and Purans, Juris

Subjects
EXTENDED X-ray absorption fine structure, THIN films, MAGNETRONS, MONTE Carlo method
Abstract

Zinc–iridium oxide (Zn–Ir–O) thin films have been demonstrated as a p‐type conducting material. However, the stability of p‐type conductivity with respect to chemical composition or temperature is still unclear. In this study we discuss the local atomic structure and the electrical properties of Zn–Ir–O films in the large Ir concentration range. The films are deposited by reactive DC magnetron co‐sputtering at two different substrate temperatures—without intentional heating and at 300 °C. Extended X‐ray absorption fine structure (EXAFS) analysis reveals that strongly disordered ZnO4 tetrahedra are the main Zn complexes in Zn–Ir–O films with up to 67.4 at% Ir. As the Ir concentration increases, an effective increase of Ir oxidation state is observed. Reverse Monte Carlo analysis of EXAFS at Zn K‐edge shows that the average Zn–O interatomic distance and disorder factor increase with the Ir concentration. We observed that the nano‐crystalline w‐ZnO structure is preserved in a wider Ir concentration range if the substrate is heated during deposition. At low Ir concentration, the transition from n‐ to p‐type conductivity is observed regardless of the temperature of the substrates. Electrical resistivity decreases exponentially with the Ir concentration in the Zn–Ir–O films. [ABSTRACT FROM AUTHOR]

Published
2022
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22. Tribovoltaic Device Based on the W/WO3Schottky Junction Operating through Hot Carrier Extraction

Author

Šutka, Andris, Zubkins, Martins, Linarts, Artis, Lapčinskis, Linards, Ma̅lnieks, Kaspars, Verners, Osvalds, Sarakovskis, Anatolijs, Grzibovskis, Raitis, Gabrusenoks, Jevgenijs, Strods, Edvards, Smits, Krisjanis, Vibornijs, Viktors, Bikse, Liga, and Purans, Juris

Abstract

The tribovoltaic devices have demonstrated an enormous current density output from friction. This has attracted attention, and thus, the tribovoltaic device research is expected to grow rapidly, providing mechanical energy harvesting from human motion or mechanical vibrations to power the microdevices. Herein, we are demonstrating the novel tribovoltaic device based on the W/WO3Schottky junction enabled by high-energy electrons as in hot-carrier photovoltaic devices. The hot carrier injection from the metal to the semiconductor has been well demonstrated before in light-driven devices but not demonstrated for tribovoltaic devices. Friction-caused electronic excitations on the W needle provide energy for electrons to overcome the Schottky barrier and generate the unbiased current density up to 1270 A m–2. The amorphous WO3derived from magnetron sputtering shows high durability and reliability of the tribovoltaic device.

Published
2021
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26. Impact of Thermal Treatment on the Surface of Na 0.5 Bi 0.5 TiO 3 -Based Ceramics.

Author

Bikse, Liga, Dunce, Marija, Birks, Eriks, Kundzins, Karlis, Freimanis, Otto, Livins, Maris, Gabrusenoks, Jevgenijs, and Sternberg, Andris

Subjects
SURFACE preparation, PARTICLE size distribution, CERAMICS, HIGH temperatures
Abstract

Thermal etching is a widely accepted surface treatment method for studying microstructure in Na0.5Bi0.5TiO3-based compositions. Surprisingly, besides the flat pattern of grains (suitable for evaluating ceramics' microstructure), images illustrating well-expressed relief and even microstructure consisting of partly bonded cubic-shaped grains are also found among the micrographs presented in various publications. The present paper shows that this different surface character in Eu-modified Na0.5Bi0.5TiO3 can be obtained through thermal treatment across a wide range of temperatures. At higher temperatures, remarkable growth of cubic-shaped grains on the surface is observed. This growth affects the grain size distribution on the surface more than it does within the bulk of a sample. Such micrographs cannot be used to characterise the microstructure of dense ceramics. Intensive growth of TiO2 inclusions at high thermal treatment temperatures is also observed, revealing substantial evaporation of Bi and Na from the surface of a ceramic sample, but not from its core part. [ABSTRACT FROM AUTHOR]

Published
2021
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27. A comprehensive study of structure and properties of nanocrystalline zinc peroxide

Author

Bocharov, Dmitry, Chesnokov, Andrei, Chikvaidze, George, Gabrusenoks, Jevgenijs, Ignatans, Reinis, Kalendarev, Robert, Krack, Matthias, Kundzins, Karlis, Kuzmin, Alexei, Mironova-Ulmane, Nina, Pudza, Inga, Puust, Laurits, Sildos, Ilmo, Vasil'chenko, Evgeni, Zubkins, Martins, and Purans, Juris

Subjects
zno2 nanoparticles synthesis, transformation, thermal-decomposition, temperature, zno2, x-ray absorption spectroscopy, oxide nanoparticles, laser-ablation, frequencies, optical-properties, Condensed Matter::Materials Science, raman spectroscopy, x-ray diffraction, x-ray, first-principles calculations, thin-films, infrared spectroscopy
Abstract

Nanocrystalline zinc peroxide (nano-ZnO2) was synthesized through a hydrothermal process and comprehensively studied using several experimental techniques. Its crystal structure was characterized by X-ray diffraction, and the average crystallite size of 22 nm was estimated by Rietveld refinement. The temperature-dependent local environment around zinc atoms was reconstructed using reverse Monte Carlo (RMC) analysis from the Zn K-edge X-ray absorption spectra. The indirect band gap of about 4.6 eV was found using optical absorption spectroscopy. Lattice dynamics of nano-ZnO2 was studied by infrared and Raman spectroscopy. In situ Raman measurements indicate the stability of nano-ZnO2 up to 250 degrees C above which it decomposes into ZnO and O-2. The obtained experimental results were supported by first-principles density functional theory (DFT) calculations.

28. Unraveling the Structure and Properties of Layered and Mixed ReO 3 -WO 3 Thin Films Deposited by Reactive DC Magnetron Sputtering.

Author

Polyakov B, Butanovs E, Ogurcovs A, Sarakovskis A, Zubkins M, Bikse L, Gabrusenoks J, Vlassov S, Kuzmin A, and Purans J

Abstract

Tungsten trioxide (WO 3 ) is a well-known electrochromic material with a wide band gap, while rhenium trioxide (ReO 3 ) is a "covalent metal" with an electrical conductivity comparable to that of pure metals. Since both WO 3 and ReO 3 oxides have perovskite-type structures, the formation of their solid solutions (ReO 3 -WO 3 or Re x W 1- x O 3 ) can be expected, which may be of significant academic and industrial interest. In this study, layered WO 3 /ReO 3 , ReO 3 /WO 3 , and mixed ReO 3 -WO 3 thin films were produced by reactive DC magnetron sputtering and subsequent annealing in air at 450 °C. The structure and properties of the films were characterized by X-ray diffraction, optical spectroscopy, Hall conductivity measurements, conductive atomic force microscopy, scanning and transmission electron microscopy, energy-dispersive X-ray spectroscopy, and X-ray photoemission spectroscopy. First-principles density functional theory calculations were performed for selected compositions of Re x W 1- x O 3 solid solutions to model their crystallographic structure and electronic properties. The calculations predict metallic conductivity and tetragonal distortion of solid solutions in agreement with the experimental results. In contrast to previously reported methods, our approach allows us to produce the WO 3 -ReO 3 alloy with a high Re content (>50%) at moderate temperatures and without the use of high pressures., Competing Interests: The authors declare no competing financial interest., (© 2022 The Authors. Published by American Chemical Society.)

Published
2022
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