Alexander Tselev
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Explore the profile of Alexander Tselev including associated specialties, affiliations and a list of published articles.
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53
Citations
329
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Recent Articles
1.
Alikin D, Pereira M, Abramov A, Pashnina E, Chuvakova M, Lavrik N, et al.
ACS Appl Mater Interfaces
. 2024 Aug;
16(32):42917-42930.
PMID: 39102288
Material thermal conductivity is a key factor in various applications, from thermal management to energy harvesting. With microstructure engineering being a widely used method for customizing material properties, including thermal...
2.
Xu W, Zelenovskii P, Tselev A, Verissimo L, Romanyuk K, Yuan W, et al.
Chem Commun (Camb)
. 2023 Sep;
59(75):11264-11267.
PMID: 37661855
Integrating NH as a B'-site ion within a three-dimensional double hybrid perovskite resulted in a novel high-temperature ferroelastic, (MeNOH)(NH)[Co(CN)], which uniquely demonstrates a reversible triclinic-to-cubic phase transition at 369 K...
3.
Xu W, Li M, Garcia A, Romanyuk K, Martinho J, Zelenovskii P, et al.
J Am Chem Soc
. 2023 Jun;
145(25):13663-13673.
PMID: 37329320
The development of photo-responsive ferroelectrics whose polarization may be remotely controlled by optical means is of fundamental importance for basic research and technological applications. Herein, we report the design and...
4.
Alikin D, Zakharchuk K, Xie W, Romanyuk K, Pereira M, Arias-Serrano B, et al.
Small Methods
. 2023 Feb;
7(4):e2201516.
PMID: 36775977
Thermoelectric conversion may take a significant share in future energy technologies. Oxide-based thermoelectric composite ceramics attract attention for promising routes for control of electrical and thermal conductivity for enhanced thermoelectric...
5.
Tselev A, Fagan J, Kolmakov A
Appl Phys Lett
. 2022 Jan;
113.
PMID: 35023877
There exists a great necessity for nanoscale characterization of surfaces and thin films during plasma treatments. To address this need, the current approaches rely on either 'post mortem' sample microscopy,...
6.
Alikin D, Abramov A, Turygin A, Ievlev A, Pryakhina V, Karpinsky D, et al.
Small Methods
. 2021 Dec;
6(2):e2101289.
PMID: 34967150
Monitoring the charged defect concentration at the nanoscale is of critical importance for both the fundamental science and applications of ferroelectrics. However, up-to-date, high-resolution study methods for the investigation of...
7.
Guo H, Yulaev A, Strelcov E, Tselev A, Arble C, Vladar A, et al.
ACS Appl Mater Interfaces
. 2020 Dec;
12(50):56650-56657.
PMID: 33327058
Electrical double layers play a key role in a variety of electrochemical systems. The mean free path of secondary electrons in aqueous solutions is on the order of a nanometer,...
8.
Strelcov E, Arble C, Guo H, Hoskins B, Yulaev A, Vlassiouk I, et al.
Nano Lett
. 2020 Jan;
20(2):1336-1344.
PMID: 31990570
The electrical double layer (EDL) governs the operation of multiple electrochemical devices, determines reaction potentials, and conditions ion transport through cellular membranes in living organisms. The few existing methods of...
9.
Semenov A, Dedyk A, Mylnikov I, Pakhomov O, Eskov A, Anokhin A, et al.
Materials (Basel)
. 2019 Nov;
12(21).
PMID: 31683682
Multiferroic materialsare widely used in microelectronics because they are sensitive to elastic, magnetic, and electric fields and there is an intrinsic coupling between them. In particular, transition metal-doped BaTiO is...
10.
Alikin D, Slautin B, Abramov A, Rosato D, Shur V, Tselev A, et al.
Materials (Basel)
. 2019 May;
12(9).
PMID: 31052308
In this contribution, a correlative confocal Raman and scanning probe microscopy approach was implemented to find a relation between the composition, lithiation state, and functional electrochemical response in individual micro-scale...