Victor Aristov - Academia.edu (original) (raw)
Papers by Victor Aristov
HAL (Le Centre pour la Communication Scientifique Directe), Jun 28, 2021
The outstanding properties of graphene make it a top candidate for replacing silicon in future el... more The outstanding properties of graphene make it a top candidate for replacing silicon in future electronic devices. However, for technological applications, graphene must be synthesized on the surface of wide-gap semiconductors. In this review, we focus on graphene synthesized on single-crystalline cubic-SiC thin films epitaxially grown on standard silicon wafers. These low-cost substrates are commercially available and fully compatible with existing silicon technologies. The results obtained in recent years demonstrate that few-layer graphene synthesized on cubic-SiC substrates possesses the atomic structure and electronic properties of quasi-free-standing graphene. However, according to data obtained by various techniques, few-layer graphene on cubic-SiC consists of nanodomains connected to one another through nanodomain boundaries. After optimization of the preparation procedures, such a nanostructured graphene overlayer can represent a very promising system for the development of...
Superconductor Science and Technology
The structural and chemical composition of the surface layer (100-140 nm) of niobium radiofrequen... more The structural and chemical composition of the surface layer (100-140 nm) of niobium radiofrequency cavities operating at cryogenic temperature has enormous impact on their superconducting characteristics. During the last years, cavities treated with a new thermal processing recipe, so-called nitrogen infusion, have demonstrated an increased efficiency and high accelerating gradients. The role and importance of nitrogen gas has been a topic of many debates. In the present work we employ variable-energy synchrotron X-ray photoelectron spectroscopy (XPS), to study the niobium surface subjected to the following treatments: vacuum annealing at 800°C, nitrogen infusion, and vacuum heat treatment as for the infusion process but without nitrogen supply. Careful analysis of XPS energy-distribution curves revealed a slightly increased thickness of the native oxide Nb2O5 for the infused samples (~3.8 nm) as compared to the annealed one (~3.5 nm) which indicates insignificant oxygen incorporat...
JETP Letters, 2021
The studies of the properties of graphene synthesized on the surface of epitaxial films of cubic ... more The studies of the properties of graphene synthesized on the surface of epitaxial films of cubic single-crystal silicon carbide preliminarily grown on Si(001) wafers have been reviewed. These studies were supported by the Russian Foundation for Basic Research, project no. 17-02-01139. The results of these studies demonstrate that graphene layers synthesized on β-SiC/Si(001) substrates have the atomic structure and electronic properties of a quasi-freestanding graphene sheet. Continuous graphene layers with a preferential direction of nanodomain boundaries, which is determined by the orientation of steps on the initial surface, can be synthesized on vicinal SiC(001) substrates. The possibility of controlled growth of mono-, bi-, and trilayer graphene on β-SiC/Si(001) wafers has been demonstrated. The studies have shown the opening of a transport gap and a high positive magnetoresistance in a parallel magnetic field in an ordered system of graphene nanoribbons on the vicinal SiC(001) surface. It has been shown that the functionalization of graphene with organic compounds changes the electronic properties of graphene on SiC(001), modifying it to a semiconductor with given properties, which allows applications in modern micro- and nanoelectronics.
Growing Graphene on Semiconductors, 2017
Applied Surface Science, 2021
Abstract We study the in-situ growth of a nanocomposite material consisting of a thin CuPcF4 film... more Abstract We study the in-situ growth of a nanocomposite material consisting of a thin CuPcF4 film and multiphase/multidimensional indium nanoparticles, self-organizing on the surface and in the bulk, at various stages of thermal deposition of metal on an organic film under ultrahigh vacuum conditions. The analysis of high-resolution transmission electron microscopy (HR-TEM) images provided valuable information about the evolution of morphology, size, density, and distribution of indium nanoparticles upon indium deposition. These 2D/3D ultra-small nano-objects turned out to have not only body-centered tetragonal (bct) crystal structure, typical for bulk indium, but also unusual face-centered cubic (fcc) one. Using a synchrotron facility, the study of the electronic structure of the hybrid nanocomposite on variable stages of metal deposition was performed by XPS and NEXAFS. Core-level spectra related to the organics indicated reasonably weak chemical interaction of indium with CuPcF4 molecules, which is not the case for a number of metal/organic semiconductor systems, while valence band spectra have shown a considerable change of the material electronic properties. The energy level diagrams, derived from the experiment, can be applied for the creation of new prototypes of metal-organic memory devices.
Silicon Materials [Working Title], 2019
Progress in Materials Science, 2017
Abstract The outstanding properties of graphene make it a top candidate for replacing silicon in ... more Abstract The outstanding properties of graphene make it a top candidate for replacing silicon in future electronic devices. However, for technological applications, graphene must be synthesized on the surface of wide-gap semiconductors. In this review, we focus on graphene synthesized on single-crystalline cubic-SiC thin films epitaxially grown on standard silicon wafers. These low-cost substrates are commercially available and fully compatible with existing silicon technologies. The results obtained in recent years demonstrate that few-layer graphene synthesized on cubic-SiC substrates possesses the atomic structure and electronic properties of quasi-free-standing graphene. However, according to data obtained by various techniques, few-layer graphene on cubic-SiC consists of nanodomains connected to one another through nanodomain boundaries. After optimization of the preparation procedures, such a nanostructured graphene overlayer can represent a very promising system for the development of new graphene-based electronic devices. In particular, recent works demonstrate that continuous few-layer graphene with self-aligned nanodomain boundaries can be synthesized on vicinal SiC(0 0 1) substrates. Electrical measurements show the opening of a transport gap in nanostructured trilayer graphene synthesized on SiC/2°-off Si(0 0 1) wafers. This development may lead to new tunable electronic nanostructures made from graphene on cubic-SiC, opening up opportunities for a wide range of applications.
Advances in Materials Physics and Chemistry, 2012
![Research paper thumbnail of Fabrication of [001]-oriented tungsten tips for high resolution scanning tunneling microscopy](https://attachments.academia-assets.com/90560423/thumbnails/1.jpg)
](Scientific reports, 2014
The structure of the [001]-oriented single crystalline tungsten probes sharpened in ultra-high va... more The structure of the [001]-oriented single crystalline tungsten probes sharpened in ultra-high vacuum using electron beam heating and ion sputtering has been studied using scanning and transmission electron microscopy. The electron microscopy data prove reproducible fabrication of the single-apex tips with nanoscale pyramids grained by the {011} planes at the apexes. These sharp, [001]-oriented tungsten tips have been successfully utilized in high resolution scanning tunneling microscopy imaging of HOPG(0001), SiC(001) and graphene/SiC(001) surfaces. The electron microscopy characterization performed before and after the high resolution STM experiments provides direct correlation between the tip structure and picoscale spatial resolution achieved in the experiments.
Organic Electronics, 2011
Journal of Applied Physics, 2014
Nanotechnology, Jan 18, 2018
Herein, we report a simple method for a covalent modification of surface-supported graphene with ... more Herein, we report a simple method for a covalent modification of surface-supported graphene with photoactive dyes. Graphene was fabricated on cubic-SiC/Si(001) wafers due to their low cost and suitability for mass-production of continuous graphene fit for electronic applications on millimetre scale. Functionalisation of the graphene surface was carried out in solution via white light-induced photochemical generation of phenazine radicals from phenazine diazonium salt. The resulting covalently bonded phenazine-graphene hybrid structure was characterised by scanning tunnelling microscopy (STM) and spectroscopy (STS), Raman spectroscopy and density functional theory (DFT) calculations. It was found that phenazine molecules form an overlayer, which exhibit a short range order with a rectangular unit cell on the graphene surface. DFT calculations based on STM results reveal that molecules are standing up in the overlayer with the maximum coverage of 0.25 molecules per graphene unit cell....
HAL (Le Centre pour la Communication Scientifique Directe), Jun 28, 2021
The outstanding properties of graphene make it a top candidate for replacing silicon in future el... more The outstanding properties of graphene make it a top candidate for replacing silicon in future electronic devices. However, for technological applications, graphene must be synthesized on the surface of wide-gap semiconductors. In this review, we focus on graphene synthesized on single-crystalline cubic-SiC thin films epitaxially grown on standard silicon wafers. These low-cost substrates are commercially available and fully compatible with existing silicon technologies. The results obtained in recent years demonstrate that few-layer graphene synthesized on cubic-SiC substrates possesses the atomic structure and electronic properties of quasi-free-standing graphene. However, according to data obtained by various techniques, few-layer graphene on cubic-SiC consists of nanodomains connected to one another through nanodomain boundaries. After optimization of the preparation procedures, such a nanostructured graphene overlayer can represent a very promising system for the development of...
Superconductor Science and Technology
The structural and chemical composition of the surface layer (100-140 nm) of niobium radiofrequen... more The structural and chemical composition of the surface layer (100-140 nm) of niobium radiofrequency cavities operating at cryogenic temperature has enormous impact on their superconducting characteristics. During the last years, cavities treated with a new thermal processing recipe, so-called nitrogen infusion, have demonstrated an increased efficiency and high accelerating gradients. The role and importance of nitrogen gas has been a topic of many debates. In the present work we employ variable-energy synchrotron X-ray photoelectron spectroscopy (XPS), to study the niobium surface subjected to the following treatments: vacuum annealing at 800°C, nitrogen infusion, and vacuum heat treatment as for the infusion process but without nitrogen supply. Careful analysis of XPS energy-distribution curves revealed a slightly increased thickness of the native oxide Nb2O5 for the infused samples (~3.8 nm) as compared to the annealed one (~3.5 nm) which indicates insignificant oxygen incorporat...
JETP Letters, 2021
The studies of the properties of graphene synthesized on the surface of epitaxial films of cubic ... more The studies of the properties of graphene synthesized on the surface of epitaxial films of cubic single-crystal silicon carbide preliminarily grown on Si(001) wafers have been reviewed. These studies were supported by the Russian Foundation for Basic Research, project no. 17-02-01139. The results of these studies demonstrate that graphene layers synthesized on β-SiC/Si(001) substrates have the atomic structure and electronic properties of a quasi-freestanding graphene sheet. Continuous graphene layers with a preferential direction of nanodomain boundaries, which is determined by the orientation of steps on the initial surface, can be synthesized on vicinal SiC(001) substrates. The possibility of controlled growth of mono-, bi-, and trilayer graphene on β-SiC/Si(001) wafers has been demonstrated. The studies have shown the opening of a transport gap and a high positive magnetoresistance in a parallel magnetic field in an ordered system of graphene nanoribbons on the vicinal SiC(001) surface. It has been shown that the functionalization of graphene with organic compounds changes the electronic properties of graphene on SiC(001), modifying it to a semiconductor with given properties, which allows applications in modern micro- and nanoelectronics.
Growing Graphene on Semiconductors, 2017
Applied Surface Science, 2021
Abstract We study the in-situ growth of a nanocomposite material consisting of a thin CuPcF4 film... more Abstract We study the in-situ growth of a nanocomposite material consisting of a thin CuPcF4 film and multiphase/multidimensional indium nanoparticles, self-organizing on the surface and in the bulk, at various stages of thermal deposition of metal on an organic film under ultrahigh vacuum conditions. The analysis of high-resolution transmission electron microscopy (HR-TEM) images provided valuable information about the evolution of morphology, size, density, and distribution of indium nanoparticles upon indium deposition. These 2D/3D ultra-small nano-objects turned out to have not only body-centered tetragonal (bct) crystal structure, typical for bulk indium, but also unusual face-centered cubic (fcc) one. Using a synchrotron facility, the study of the electronic structure of the hybrid nanocomposite on variable stages of metal deposition was performed by XPS and NEXAFS. Core-level spectra related to the organics indicated reasonably weak chemical interaction of indium with CuPcF4 molecules, which is not the case for a number of metal/organic semiconductor systems, while valence band spectra have shown a considerable change of the material electronic properties. The energy level diagrams, derived from the experiment, can be applied for the creation of new prototypes of metal-organic memory devices.
Silicon Materials [Working Title], 2019
Progress in Materials Science, 2017
Abstract The outstanding properties of graphene make it a top candidate for replacing silicon in ... more Abstract The outstanding properties of graphene make it a top candidate for replacing silicon in future electronic devices. However, for technological applications, graphene must be synthesized on the surface of wide-gap semiconductors. In this review, we focus on graphene synthesized on single-crystalline cubic-SiC thin films epitaxially grown on standard silicon wafers. These low-cost substrates are commercially available and fully compatible with existing silicon technologies. The results obtained in recent years demonstrate that few-layer graphene synthesized on cubic-SiC substrates possesses the atomic structure and electronic properties of quasi-free-standing graphene. However, according to data obtained by various techniques, few-layer graphene on cubic-SiC consists of nanodomains connected to one another through nanodomain boundaries. After optimization of the preparation procedures, such a nanostructured graphene overlayer can represent a very promising system for the development of new graphene-based electronic devices. In particular, recent works demonstrate that continuous few-layer graphene with self-aligned nanodomain boundaries can be synthesized on vicinal SiC(0 0 1) substrates. Electrical measurements show the opening of a transport gap in nanostructured trilayer graphene synthesized on SiC/2°-off Si(0 0 1) wafers. This development may lead to new tunable electronic nanostructures made from graphene on cubic-SiC, opening up opportunities for a wide range of applications.
Advances in Materials Physics and Chemistry, 2012
Scientific reports, 2014
The structure of the [001]-oriented single crystalline tungsten probes sharpened in ultra-high va... more The structure of the [001]-oriented single crystalline tungsten probes sharpened in ultra-high vacuum using electron beam heating and ion sputtering has been studied using scanning and transmission electron microscopy. The electron microscopy data prove reproducible fabrication of the single-apex tips with nanoscale pyramids grained by the {011} planes at the apexes. These sharp, [001]-oriented tungsten tips have been successfully utilized in high resolution scanning tunneling microscopy imaging of HOPG(0001), SiC(001) and graphene/SiC(001) surfaces. The electron microscopy characterization performed before and after the high resolution STM experiments provides direct correlation between the tip structure and picoscale spatial resolution achieved in the experiments.
Organic Electronics, 2011
Journal of Applied Physics, 2014
Nanotechnology, Jan 18, 2018
Herein, we report a simple method for a covalent modification of surface-supported graphene with ... more Herein, we report a simple method for a covalent modification of surface-supported graphene with photoactive dyes. Graphene was fabricated on cubic-SiC/Si(001) wafers due to their low cost and suitability for mass-production of continuous graphene fit for electronic applications on millimetre scale. Functionalisation of the graphene surface was carried out in solution via white light-induced photochemical generation of phenazine radicals from phenazine diazonium salt. The resulting covalently bonded phenazine-graphene hybrid structure was characterised by scanning tunnelling microscopy (STM) and spectroscopy (STS), Raman spectroscopy and density functional theory (DFT) calculations. It was found that phenazine molecules form an overlayer, which exhibit a short range order with a rectangular unit cell on the graphene surface. DFT calculations based on STM results reveal that molecules are standing up in the overlayer with the maximum coverage of 0.25 molecules per graphene unit cell....