2026 S. V. Trukhanov: Materials Science Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Materials Science	100	1072	1025	1	1	249	18683

Overview

What is he best known for?

The fields of study he is best known for:

Oxygen
Crystal structure
Condensed matter physics

The scientist’s investigation covers issues in Condensed matter physics, Ferromagnetic resonance, Superexchange, Coercivity and Magnetization. His study in Crystal structure extends to Condensed matter physics with its themes. His Superexchange study combines topics from a wide range of disciplines, such as Exchange bias, Electromagnetic radiation, Amplitude, Ionic bonding and Nuclear magnetic resonance.

The Coercivity study combines topics in areas such as Magnetic anisotropy and Dielectric. His Magnetization research is multidisciplinary, incorporating elements of Crystallography, Curie temperature, Solid solution and Magnetic moment. His work in Neutron diffraction tackles topics such as Magnetic structure which are related to areas like Analytical chemistry.

His most cited work include:

Investigation into the structural features and microwave absorption of doped barium hexaferrites (94 citations)
Investigation into the structural features and microwave absorption of doped barium hexaferrites (94 citations)
Investigation into the structural features and microwave absorption of doped barium hexaferrites (94 citations)

What are the main themes of his work throughout his whole career to date?

S. V. Trukhanov mainly investigates Condensed matter physics, Analytical chemistry, Magnetization, Crystal structure and Crystallography. His work is dedicated to discovering how Condensed matter physics, Magnetoresistance are connected with Superexchange and Nanowire and other disciplines. His work carried out in the field of Analytical chemistry brings together such families of science as Barium, Ceramic, Diffraction and Scanning electron microscope.

His research in Magnetization focuses on subjects like Coercivity, which are connected to Magnetic anisotropy, Remanence and Magnetic hysteresis. His Crystallography research includes elements of Magnetic structure and Space group. The study incorporates disciplines such as Diamagnetism, Curie temperature and Ferromagnetic resonance in addition to Solid solution.

He most often published in these fields:

Condensed matter physics (46.04%)
Analytical chemistry (51.49%)
Magnetization (36.14%)

What were the highlights of his more recent work (between 2019-2021)?

Analytical chemistry (51.49%)
Dielectric (18.32%)
Crystal structure (30.69%)

In recent papers he was focusing on the following fields of study:

S. V. Trukhanov spends much of his time researching Analytical chemistry, Dielectric, Crystal structure, Diffraction and Barium. S. V. Trukhanov combines subjects such as Magnetization, Scanning electron microscope and Permittivity with his study of Analytical chemistry. His work deals with themes such as Sintering, Temperature coefficient and Ceramic, which intersect with Dielectric.

His Crystal structure research is classified as research in Crystallography. S. V. Trukhanov studied Diffraction and Phase transition that intersect with Work, Physical chemistry, Magnetic moment and Paramagnetism. The concepts of his Solid solution study are interwoven with issues in Magnetic structure, Curie temperature and Coercivity.

Between 2019 and 2021, his most popular works were:

Correlation between microstructure parameters and anti-cancer activity of the Mn0.5Zn0.5O4 nanoferrites produced by modified sol-gel and ultrasonic methods (61 citations)
Correlation between microstructure parameters and anti-cancer activity of the Mn0.5Zn0.5O4 nanoferrites produced by modified sol-gel and ultrasonic methods (61 citations)
Impact of Eu3+ ion substitution on structural, magnetic and microwave traits of Ni–Cu–Zn spinel ferrites (58 citations)

In his most recent research, the most cited papers focused on:

Oxygen
Semiconductor
Crystal structure

S. V. Trukhanov mainly focuses on Analytical chemistry, Dielectric, Microstructure, Barium and Permittivity. His work in Analytical chemistry covers topics such as Magnetization which are related to areas like Nanocomposite. His biological study spans a wide range of topics, including Sol-gel, Nanoparticle, Crystal and Chemical composition.

His research in Barium intersects with topics in Sintering, Pellets, Diffraction and Ceramic. The various areas that S. V. Trukhanov examines in his Permittivity study include Magnetism, High-resolution transmission electron microscopy, Europium and Composite material, Grain size. S. V. Trukhanov combines topics linked to Condensed matter physics with his work on Magnetic structure.

Best Publications

Crystal structure and magnetic properties of the BaFe12−xInxO19 (x=0.1–1.2) solid solutions

A.V. Trukhanov;V.O. Turchenko;I.A. Bobrikov;S.V. Trukhanov

438
Citations
Polarization origin and iron positions in indium doped barium hexaferrites

S.V. Trukhanov;S.V. Trukhanov;A.V. Trukhanov;V.A. Turchenko;An.V. Trukhanov

370
Citations
Control of electromagnetic properties in substituted M-type hexagonal ferrites

A.V. Trukhanov;A.V. Trukhanov;V.G. Kostishyn;L.V. Panina;V.V. Korovushkin

314
Citations
Correlation Between Composition and Electrodynamics Properties in Nanocomposites Based on Hard/Soft Ferrimagnetics with Strong Exchange Coupling

Munirah Abdullah Almessiere;Alex V. Trukhanov;Yassine Slimani;Kok Yeow You

257
Citations
Magnetic and electrical properties ofLBaMn2O6−γ(L=Pr,Nd, Sm, Eu, Gd, Tb) manganites

S. V. Trukhanov;I. O. Troyanchuk;M. Hervieu;H. Szymczak

248
Citations
Impact of In3+ cations on structure and electromagnetic state of M-type hexaferrites

Unknown

247
Citations
Ultrahigh enhancement rate of the energy density of flexible polymer nanocomposites using core–shell BaTiO3@MgO structures as the filler

Pengjian Wang;Di Zhou;Huan-Huan Guo;Wenfeng Liu

219
Citations
Temperature stable Li2Ti0.75(Mg1/3Nb2/3)0.25O3-based microwave dielectric ceramics with low sintering temperature and ultra-low dielectric loss for dielectric resonator antenna applications

Huan-Huan Guo;Di Zhou;Chao Du;Peng-Jian Wang

218
Citations
Investigation of exchange coupling and microwave properties of hard/soft (SrNi0.02Zr0.01Fe11.96O19)/(CoFe2O4)x nanocomposites

Unknown

202
Citations
Structural parameters, energy states and magnetic properties of the novel Se-doped NiFe2O4 ferrites as highly efficient electrocatalysts for HER

Unknown

201
Citations
Magnetic state of the structural separated anion-deficient La 0.70 Sr 0.30 MnO 2.85 manganite

S. V. Trukhanov;A. V. Trukhanov;A. N. Vasiliev;A. M. Balagurov

190
Citations
Investigation into the structural features and microwave absorption of doped barium hexaferrites

S. V. Trukhanov;S. V. Trukhanov;S. V. Trukhanov;A. V. Trukhanov;A. V. Trukhanov;A. V. Trukhanov;V. G. Kostishyn;L. V. Panina

189
Citations
Investigation of AC-Measurements of Epoxy/Ferrite Composites.

Moustafa A Darwish;Moustafa A Darwish;Alex V Trukhanov;Alex V Trukhanov;Oleg S Senatov;Alexander T Morchenko

188
Citations
Preparation and investigation of structure, magnetic and dielectric properties of (BaFe11.9Al0.1O19)1-x - (BaTiO3)x bicomponent ceramics

S.V. Trukhanov;S.V. Trukhanov;A.V. Trukhanov;A.V. Trukhanov;M.M. Salem;M.M. Salem;E.L. Trukhanova;E.L. Trukhanova

185
Citations
Significantly enhanced electrostatic energy storage performance of P(VDF-HFP)/BaTiO3-Bi(Li0.5Nb0.5)O3 nanocomposites

Peng-Jian Wang;Di Zhou;Jing Li;Li-Xia Pang

184
Citations
High hydrostatic pressure effect on magnetic state of anion-deficient La0.70Sr0.30MnOx perovskite manganites

Unknown

184
Citations
Effect of the size factor on the magnetic properties of manganite La 0.50 Ba 0.50 MnO 3

S. V. Trukhanov;A. V. Trukhanov;S. G. Stepin;H. Szymczak

175
Citations
Electromagnetic Properties of Carbon Nanotube/BaFe12−xGaxO19/Epoxy Composites with Random and Oriented Filler Distributions

Unknown

174
Citations
Fe₃O₄ Nanoparticles for Complex Targeted Delivery and Boron Neutron Capture Therapy.

Kanat Dukenbayev;Ilya V. Korolkov;Daria I. Tishkevich;Daria I. Tishkevich;Artem L. Kozlovskiy

169
Citations
Immobilization of boron-rich compound on Fe3O4 nanoparticles: Stability and cytotoxicity

D.I. Tishkevich;I.V. Korolkov;A.L. Kozlovskiy;M. Anisovich

161
Citations
Influence of oxygen vacancies on the magnetic and electrical properties of La1-xSrxMnO3-x/2 manganites

S. V. Trukhanov;L. S. Lobanovski;M. V. Bushinsky;V. A. Khomchenko

155
Citations
Magnetic properties and Mössbauer study of gallium doped M-type barium hexaferrites

A.V. Trukhanov;A.V. Trukhanov;V.G. Kostishyn;L.V. Panina;S.H. Jabarov

154
Citations
Correlation between microstructure parameters and anti-cancer activity of the [Mn0.5Zn0.5](EuxNdxFe2-2x)O4 nanoferrites produced by modified sol-gel and ultrasonic methods

M.A. Almessiere;A.V. Trukhanov;A.V. Trukhanov;F.A. Khan;Y. Slimani

154
Citations
Thermal stability of A-site ordered PrBaMn2O6 manganites

S.V. Trukhanov;A.V. Trukhanov;H. Szymczak;R. Szymczak

151
Citations
Impact of Eu3+ ion substitution on structural, magnetic and microwave traits of Ni–Cu–Zn spinel ferrites

M.A. Almessiere;Y. Slimani;H. Güngüneş;V.G. Kostishyn

149
Citations
Critical behavior of La0.825Sr0.175MnO2.912 anion-deficient manganite in the magnetic phase transition region

S. V. Trukhanov;A. V. Trukhanov;A. N. Vasil’ev;A. Maignan

145
Citations

Frequent Co-Authors

An.V. Trukhanov South Ural State University

H. Szymczak Polish Academy of Sciences

Maxim V. Zdorovets L. N. Gumilyov Eurasian National University

A. S. B. Sombra Universidade Federal do Ceará

Di Zhou Xi'an Jiaotong University

Yassine Slimani Imam Abdulrahman Bin Faisal University

Munirah Abdullah Almessiere Imam Abdulrahman Bin Faisal University

Abdulhadi Baykal Istanbul Aydın University

Victor V. Atuchin Kemerovo State University

Sanjay R. Mishra University of Memphis

External Links

Personal website of S. V. Trukhanov

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S. V. Trukhanov

D-Index & Metrics

D-Index & Metrics

Materials Science

Overview

What is he best known for?

The fields of study he is best known for:

His most cited work include:

What are the main themes of his work throughout his whole career to date?

He most often published in these fields:

What were the highlights of his more recent work (between 2019-2021)?

In recent papers he was focusing on the following fields of study:

Between 2019 and 2021, his most popular works were:

In his most recent research, the most cited papers focused on:

Best Publications

Crystal structure and magnetic properties of the BaFe12−xInxO19 (x=0.1–1.2) solid solutions

Polarization origin and iron positions in indium doped barium hexaferrites

Control of electromagnetic properties in substituted M-type hexagonal ferrites

Correlation Between Composition and Electrodynamics Properties in Nanocomposites Based on Hard/Soft Ferrimagnetics with Strong Exchange Coupling

Magnetic and electrical properties ofLBaMn2O6−γ(L=Pr,Nd, Sm, Eu, Gd, Tb) manganites

Impact of In3+ cations on structure and electromagnetic state of M-type hexaferrites

Ultrahigh enhancement rate of the energy density of flexible polymer nanocomposites using core–shell BaTiO3@MgO structures as the filler

Temperature stable Li2Ti0.75(Mg1/3Nb2/3)0.25O3-based microwave dielectric ceramics with low sintering temperature and ultra-low dielectric loss for dielectric resonator antenna applications

Investigation of exchange coupling and microwave properties of hard/soft (SrNi0.02Zr0.01Fe11.96O19)/(CoFe2O4)x nanocomposites

Structural parameters, energy states and magnetic properties of the novel Se-doped NiFe2O4 ferrites as highly efficient electrocatalysts for HER

Magnetic state of the structural separated anion-deficient La 0.70 Sr 0.30 MnO 2.85 manganite

Investigation into the structural features and microwave absorption of doped barium hexaferrites

Investigation of AC-Measurements of Epoxy/Ferrite Composites.

Preparation and investigation of structure, magnetic and dielectric properties of (BaFe11.9Al0.1O19)1-x - (BaTiO3)x bicomponent ceramics

Significantly enhanced electrostatic energy storage performance of P(VDF-HFP)/BaTiO3-Bi(Li0.5Nb0.5)O3 nanocomposites

High hydrostatic pressure effect on magnetic state of anion-deficient La0.70Sr0.30MnOx perovskite manganites

Effect of the size factor on the magnetic properties of manganite La 0.50 Ba 0.50 MnO 3

Electromagnetic Properties of Carbon Nanotube/BaFe12−xGaxO19/Epoxy Composites with Random and Oriented Filler Distributions

Fe₃O₄ Nanoparticles for Complex Targeted Delivery and Boron Neutron Capture Therapy.

Immobilization of boron-rich compound on Fe3O4 nanoparticles: Stability and cytotoxicity

Influence of oxygen vacancies on the magnetic and electrical properties of La1-xSrxMnO3-x/2 manganites

Magnetic properties and Mössbauer study of gallium doped M-type barium hexaferrites

Correlation between microstructure parameters and anti-cancer activity of the [Mn0.5Zn0.5](EuxNdxFe2-2x)O4 nanoferrites produced by modified sol-gel and ultrasonic methods

Thermal stability of A-site ordered PrBaMn2O6 manganites

Impact of Eu3+ ion substitution on structural, magnetic and microwave traits of Ni–Cu–Zn spinel ferrites

Critical behavior of La0.825Sr0.175MnO2.912 anion-deficient manganite in the magnetic phase transition region

Frequent Co-Authors

External Links

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