Карпенков Дмитрий Юрьевич

Дата рождения: 30 января 1987 года

E-mail      :Karpenkov_D_Y@mail.ru

Должность: эксперт

Ученая степень: к.ф-м.н.


Область научных интересов:

Магнитокалорический эффект микро- и нанокристаллических интерметаллических соединениях РЗМ-3d металлов

Транспортные свойства

Магнитоэлектрического эффекта в планарных гетероструктурах.

Без редкоземельные постоянные магниты.


 

 Образование :высшее

Окончил: Тверской государственный университет
Специальность: Физика
Специализация: Физика магнитных явлений 


Учебные курсы, читаемые в университете  

Функциональные магнитные материалы

 

Наиболее значимые публикации (3 -5 шт)

1.                  Radulov, I.A. , Karpenkov, D.Y. , Skokov, K.P., Karpenkov, A.Y., Braun, T., Brabänder, V., Gottschall, T., Pabst, M., Stoll, B., Gutfleisch, O.,  Production and properties of metal-bonded La(Fe,Mn,Si)13Hx composite material, Acta Materialia, (2017) 127, pp. 389¬399. DOI: 10.1016/j.actamat.2017.01.054. Impact Factor: 5.058

2.                  Shao, Y. , Liu, J., Zhang, M., Yan, A., Skokov, K.P., Karpenkov, D.Y., Gutfleisch, OHigh- performance solid ¬state cooling materials: Balancing magnetocaloric and non-magnetic properties in dual phase La-Fe-Si, Acta Materialia, (2017) 125, pp. 506¬512. DOI: 10.1016/j.actamat.2016.12.014 Impact Factor: 5.058

3.                  Edstroem A. ,Werwinski M., Iusan D., Rusz J., Eriksson O., Skokov, K.P., Radulov I.A., Ener S., Kuz'min M.D., Hong J., Fries M., Karpenkov D.Y., Gutfleisch O., Toson P., Fidler J. Magnetic properties of (Fe1-xCox)(2)B alloys and the effect of doping by 5d elements, PHYSICAL REVIEW B, 92 (17) 2015 174413, DOI: 10.1103/PhysRevB.92.174413, IF:3.736

4.                  Karpenkov D. Yu, Skokov K.P., Liu J., Karpenkov A. Yu., Semenova E.M., Airiyan E.L. , Pastushenkov Yu. G., Gutfleisch O. Adiabatic temperature change of micro- and nanocrystalline Y2Fe17 heat-exchangers for magnetic cooling, Journal of Alloys and Compounds 668 (2016) 40e45, DOI: 10.1016/j.jallcom.2016.01.209, Impact Factor:2.999

 

 Все научные публикации за последние 5 лет

1. Karpenkov, D.Y.,  Muratov, D.G.,  Kozitov, L.V.,  Skokov, K.P.,  Karpenkov, A.Y.,  Popkova, A.V.,  Gutfleisch, OInfrared heating mediated synthesis and characterization of FeCo/C nanocomposites, Journal of Magnetism and Magnetic Materials (2017) 429, 94, DOI: 10.1016/j.jmmm.2017.01.008, Impact Factor: 2,357

2.         Radulov, I.A. , Karpenkov, D.Y. , Skokov, K.P., Karpenkov, A.Y., Braun, T., Brabänder, V., Gottschall, T., Pabst, M., Stoll, B., Gutfleisch, O.,  Production and properties of metal-bonded La(Fe,Mn,Si)13Hx composite material, Acta Materialia, (2017) 127, pp. 389¬399. DOI: 10.1016/j.actamat.2017.01.054. Impact Factor: 5.058

3.         M. Fries, K.P. Skokov,  D. Yu. Karpenkov, V. Franco, S. Ener, O. Gutfleisch. The influence of magnetocrystalline anisotropy on the magnetocaloric effect: A case study on Co2B. Applied Physics Letters. – 2016. – V.109. – P. 2324061-2324065, DOI: 10.1063/1.4971839, (Impact Factor:  3,142).

4.         L.V.B. Diop, M.D. Kuz'min, K.P  Skokov, D.Yu. Karpenkov, O. Gutfleisch. Magnetic anisotropy of Sm2Fe17 single crystals. Physical Review B - Condensed Matter and Materials Physics.- 2016. – V. 94. – P. 1444131-1444138, DOI: 10.1103/PhysRevB.94.144413, (Impact Factor:  3,718).

5.         Shao, Y. , Liu, J., Zhang, M., Yan, A., Skokov, K.P., Karpenkov, D.Y., Gutfleisch, O.  High- performance solid ¬state cooling materials: Balancing magnetocaloric and non-magnetic properties in dual phase La-Fe-Si, Acta Materialia, (2017) 125, pp. 506¬512. DOI: 10.1016/j.actamat.2016.12.014 Impact Factor: 5.058

6.         Karpenkov D. Yu, Skokov K.P., Liu J., Karpenkov A. Yu., Semenova E.M., Airiyan E.L. , Pastushenkov Yu. G., Gutfleisch O. Adiabatic temperature change of micro- and nanocrystalline Y2Fe17 heat-exchangers for magnetic cooling, Journal of Alloys and Compounds 668 (2016) 40e45, DOI: 10.1016/j.jallcom.2016.01.209, Impact Factor:2.999

7.         Edstroem A. ,Werwinski M., Iusan D., Rusz J., Eriksson O., Skokov, K.P., Radulov I.A., Ener S., Kuz'min M.D., Hong J., Fries M., Karpenkov D.Y., Gutfleisch O., Toson P., Fidler J. Magnetic properties of (Fe1-xCox)(2)B alloys and the effect of doping by 5d elements, PHYSICAL REVIEW B, 92 (17) 2015 174413, DOI: 10.1103/PhysRevB.92.174413, IF:3.736

8.         Radulov I.A., Skokov K.P., Karpenkov D.Y., Gottschall, T. Gutfleisch O. On the preparation of La(Fe,Mn,Si)(13)H-x polymer-composites with optimized magnetocaloric properties, JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, 396 (2015) 228-236,DOI: 10.1016/j.jmmm.2015.08.044, IF: 2,357

9.         Ener S. Magnet properties of Mn70Ga30 prepared by cold rolling and magnetic field annealing / S. Ener, K.P. Skokov, D.Yu. Karpenkov, M.D. Kuz'min, O. Gutfleisch // Journal of Magnetism and Magnetic Materials. - 2015. - V.382. - P.265–270. Citing Index:0. Impact factor: 2,357.

10.       Taskaev, S. Effect of severe plastic deformation on the specific heat and magnetic properties of cold rolled Gd sheets / S. Taskaev, K. Skokov, V. Khovaylo, V. Buchelnikov, A. Pellenen, D. Karpenkov, M. Ulyanov, D. Bataev, A. Usenko, M. Lyange, and O. Gutfleisch // Journal of Applied Physics. – 2015. – V. 117. – P. 123914

11.       Skokov K. P. Heat exchangers made of polymer-bonded La(Fe,Si)13 / K. P. Skokov, D. Yu. Karpenkov, M. D. Kuz'min, I. A. Radulov, T. Gottschall, B. Kaeswurm, M. Fries, O. Gutfleisch // Journal of Applied Physics. - 2014. - V.115. - Issue 17. - P. 17A941. Citing Index:0. Impact factor: 2,210.

12. Taskaev, S. V. Giant induced anisotropy ruins the magnetocaloric effect in gadolinium / S. V. Taskaev , M. D. Kuz’min, K. P. Skokov, D. Yu. Karpenkov, A. P. Pellenen , V. D. Buchelnikov , O. Gutfleisch // Journal of Magnetism and Magnetic Materials. - 2013. - V. 331. - P. 33-36. Impact Factor: 1.826. http://www.sciencedirect.com/science/article/pii/S0304885312009195

13. Sokolovskiy, V. Magnetocaloric and magnetic properties of Ni2Mn1-xCuxGa Heusler alloys: An insight from the direct measurements and ab initio and Monte Carlo calculations / V. Sokolovskiy, V. Buchelnikov, K. Skokov, O. Gutfleisch, D. Karpenkov, Yu. Koshkid'ko, H. Miki, I. Dubenko, N. Ali, S. Stadler, V. Khovaylo // Journal of Applied Physics. - 2013. - V. 114. - P. 183913. Impact Factor: 2.210.  http://scitation.aip.org/content/aip/journal/jap/114/18/10.1063/1.4826366

14. Taskaev, S. V. Influence of thermal treatment on magnetocaloric properties of Gd cold rolled ribbons / S. V. Taskaev, V. D. Buchelnikov, A. P. Pellenen, M. D. Kuz'min, K. P. Skokov, D. Yu. Karpenkov, D. S. Bataev, O. Gutfleisch // Journal of Applied Physics. - 2013. - V. 113. - 17A933. Impact Factor: 2.210. http://scitation.aip.org/content/aip/journal/jap/113/17/10.1063/1.4799256

15. Skokov, K. P. The maximal cooling power of magnetic and thermoelectric refrigerators with La(FeCoSi)13 alloys / K. P. Skokov, A. Yu. Karpenkov, D. Yu. Karpenkov, O. Gutfleisch // Journal of Applied Physics. - 2013. - V. 113. - 17A945.  Impact Factor: 2.210. http://scitation.aip.org/content/aip/journal/jap/113/17/10.1063/1.4801424.

16. Pelevin I.А. Development of nanostructured magnetic materials based on high-purity rare earth metals and the study of their basic characteristics / I.А.Pelevin, I.S.Tereshina, G.S.Burkhanov, S.V. Dobatkin, Т.P.Kaminskay, D.Yu. Karpenkov, A.Zaleski, E.А. Tereshina // Physics of the Solid State. - 2014. - V. 56. - Issue 9. - P.1718 -1724. Citing Index:0. Impact factor: 0,782.

17. Bogomolov, A. A. Electric response to pulse thermal impact from layered magnetoelectric composites of PZT-NiZn-ferrite ceramics / A. A. Bogomolov, A. V. Solnyshkin, D. Yu Karpenkov// Technical physics letters. -  2014. - V.40. - Issue 4. Citing Index:0. Impact factor: 0,562

18. Zvonov A.I. The change of crystallite sizes and magnetocaloric effect in rapidly quenched dysprosium / Zvonov A.I., Pankratov N.Yu., Karpenkov D.Yu., Smarzhevskaya A.I., Karpenkov A.Yu., Nikitin S.A. // Physica Status Solidi C - Current Topics in Solid State Physics. -  2014. - V.11. - Issue 5-6. P.1149. Citing Index:0. Impact factor: 0.

19. Pankratov, N. Yu. Magnetocaloric Effect and Magnetic Phase Transitions in Nanocrystalline / N. Yu. Pankratov, A. I. Zvonov, D. Yu. Karpenkov, A. I. Smarzhevskaya, A. Yu. Karpenkov, S. A. Nikitin // Bulletin of the Russian Academy of Sciences. - 2013. - V. 77. - Issue 10. - P. 1268-1271. Citing Index: 1. Impact factor: 0.

20. Karpenkov, D. Y. The Magnetocaloric Effect in Two-Phase Y-Fe Nanocrystalline Alloys / Dmitriy Y. Karpenkov, Alexei Y. Karpenkov, Kostantin P. Skokov, Elena M. Semenova, Roman F. Smirnov, Eduard L. Airiyan, Arthur I. Arefev, Yury G. Pastushenkov // Solid State Phenomena. - 2012. - V. 190. - P. 323-326. Citing Index:1. Impact factor: -.

21. Stankiewicz, J. Fundamental magnetotransport anisotropy in R2Fe17 single crystals / Jolanta Stankiewicz, Dmitriy Karpenkov, Konstantin P. Skokov // PHYSICAL REVIEW B. - 2011. - 83 - 014419. Citing Index:4. Impact factor: 3,767.

22. Kuz’min, M. D. Magnetic field dependence of the maximum adiabatic temperature change / M. D. Kuz’min, K. P. Skokov, D. Yu. Karpenkov, J. D. Moore, M. Richter, O. Gutfleisch // Applied Physics Letters. - 2011. - V.99. - 012501. Citing Index:18. Impact factor: 3,794.

23. Karpenkov, D. Yu. Magnetoelectric effect in thick-film heterostructures of PZT and Ni-Zn ferrites /D. Yu. Karpenkov, A. A. Bogomolov, A. V. Solnyshkin, V. A. Golovnin, A. Yu. Karpenkov, Yu. G. Pastushenkov // Inorganic Materials. - 2011. - V. 47. - Issue 11. - P. 1275-1279. Citing Index:1. Impact factor: 0, 376.

24. Nikitin, S. A. The magnetostriction of the intermetallic compound ErCo2 near the magnetic phase transition paramagnetism-ferrimagnetism / S. A. Nikitin, D. Yu. Karpenkov, A. Yu. Karpenkov, N. I. Nizhankovskii, T. Palewski, K.P. Skokov // Journal of Physics: Conference Series. - 2011. - V. 303. - 012032. Citing Index:0. Impact factor: -.

25. Nikitin, S. A. Magnetostriction and transformation of crystal structure of intermetallic compound NdCo2 / S. A. Nikitin, D. Yu. Karpenkov, I. S. Tereshina, Yu.G. Pastushenkov, T. Palewski, J. Cwik // Journal of Physics: Conference Series. - 2011. - 303 - 012023. Citing Index:0. Impact factor: -.

26. Tereshina, I. Magnetostriction in (Tb0.45Dy0.55)1−xErxCo2 (x = 0.1, 0.2): high-field investigation / I. Tereshina, G. Politova, E. Tereshina, J. Cwik, S. Nikitin, O. Chistyakov, A. Karpenkov, D. Karpenkov, T. Palewski // Journal of Physics: Conference Series. - 2011. - 303 - 012024. Citing Index:0. Impact factor: -.

27. Skokov, K. P. Magnetocaloric effect in micro- and nanocrystalline TbFe11-XTi intermetallic compounds / K. P. Skokov, Yu. S. Koshkid'ko, D. Yu. Karpenkov, A. Yu. Karpenkov, E. M. Semenova, Yu. G. Pastushenkov // Journal of Physics: Conference Series. - 2009. - V. 144. - 012087.  Citing Index:0. Impact factor: -.

28. Karpenkov D.Yu., Koshkid’ko Yu.S., Khovailo V.V., Skokov K.P., Pastushenkov Yu.G. Magnetocaloric effect, microstructure and domain structure of Heusler’s alloys (Ni2+xMn1-xGa) (in rus), Perspectivnie materiali, 2008, p.73-76 Citing Index:0. Impact factor: 0,302.

Karpenkov A.Yu., Karpenkov D.Yu., Skokov K.P., Koshkid’ko Yu.S., Semenova E.M., Pastushenkov Yu.G. Microstructure and magnetocaloric effect of R-Fe alloys (in rus), Perspectivnie materiali, 2008, p.67-72. Citing Index:0. Impact factor: 0,302.

29. Karpenkov A.Yu. The influence of additives of silicon on the magnetocaloric effect in R2(FeSi)17 alloys / А. Yu. Karpenkov, D. Yu. Karpenkov, K. P. Skokov, E. М. Semenova, R. F. Smirnov, J. Lyubina, O. Gutfleish, Yu. G. Pastushenkov // (in rus), Perspectivnie materiali, 2008, - P. 316-320. Citing Index:0. Impact factor: 0,302.

30. Karpenkov D.Yu. Magnetocaloric effect in micro- and nanocrystalliine TbFe11Ti alloys / D. Yu. Karpenkov, A. Yu. Karpenkov, K. P. Skokov, E. М. Semenova, R. F. Smirnov, Yu. G. Pastushenkov // (in rus), Perspectivnie materiali, 2008- P.321-324. Citing Index:0. Impact factor: 0,302.

 

 

Участие в НИР, грантах, разработках и т.д. за последние 5 лет (тема, год)

 

1. The Grant in the framework of Increase Competitiveness Program of NUST MISiS (K4-2015-013) (project leader) (Russia, NUST “MISiS”)

2. Grant of the President of the Russian Federation for Young Candidates of Science MK-3775- 2015/8 "Creating a fundamentally new generation of permanent magnets that do not contain critical elements"(project leader) (Russia, NUST “MISiS”)

3. Russian Foundation for Basic Research No. 13-02-90763 mol._rf._nr "Investigation of the the cooling power dependence of the promising magnetocaloric materials on the characteristics of their micro- and nanostructures"(project leader) (Russia, NUST “MISiS”)

4. The Russian Foundation for Basic Research № 13-02-90763 mol_rf_nr "The investigation of refrigerant capacity of promising magnetocaloric materials on the characteristics of micro- and nanostructures"(project leader) (Russia, NUST “MISiS”)

5. Federal Target Program "Scientific and scientific-pedagogical stuff of innovative Russia 2009-2013." SC №14.132.21.1729 dated 04.10.2012. "Magnetoelectric heterostructure for increasing the efficiency of energy production and transformation"(project leader) (Russia, Tver State University).

6. The "Member of the Youth Research and Innovation Competition" ("UMNIK"): "The development of materials with improved physical and chemical properties for application in instrumentation and Medicine" 2009-2012 №6050p/8448, №8558p/13135.(project leader) (Russia, Tver State University).

7. Grant of the Russian Ministry of Education and Science, arrangement 2.4 (Russia, Tver State University).

8. Participant of 3 grants of FTP Scientific and scientific-pedagogical stuff of innovative Russia for 2009-2013 (SC P542, SC P745, SC P196) (Russia, Tver State University) and 6 grant of RFBR (13-02-00856А, 13-02-00916 А, 12-02-31516, 12-02-31314 , 12-02-31516, 09-02-01274) (Russia, Tver State University in collaboration with Lomonosov Moscow State University) and 1 grant of the Russian Science foundation.

 Патенты (ноу-хау, заявки и другая интеллектуальная собственность)

 

1. Patent №2538882 "An apparatus for manufacturing amorphous and nanocrystalline metal strips by means of rapidly quenching technique". Authors:Karpenkov D.Yu., Grigorev A.E., Smirnov I.A., Skokov K.P., Karpenkov A.Yu., Pastushenkov Yu.G. Data of registration: 24 November 2014.

2. Patent №2491684 "Multilayer Ceramic heterostructure with magnetoelectric effect and method of its fabrication". Data of registration: 27 August 2013.

3. Application for a patent for the invention "Working body based on magnetoactive and piezoactive materials for magnetic solid-state heat pumps" 2016139789 dated 11.10.2016.

4. Computer program 2016663712 Data of registration 14.12.2016 Karpenkov A.Yu., Karpenkov D.Yu., Lyakhova M.B. The program for automatic calculation of the charge of melted alloys

5. Computer program 2015661475 Data of registration 20.10.2015 Karpenkov A.Yu., Karpenkov D.Yu., Balbihina O.V., Lyakhova M.B. Program for calculating the magnetothermal properties of magnetic materials and evaluating the effectiveness of their use in the working cycles of magnetic heat pumps

6. Computer program 2015661474 Data of registration 29.10.2015 Karpenkov A.Yu., Karpenkov D.Yu., Semenova E.M. Program for qualitative and quantitative interpretation of synchronous thermal analysis data

Сведения о стажировках за последние 5 лет (для преподавателей и сотрудников кафедры)

February, 2012-   researcher, Leibniz Institute for Solid State and Materials Research Dresden

May, 2012          

February, 2013- researcher, Technical University of Darmstadt

May, 2013

February, 2014- researcher, Technical University of Darmstadt

May, 2014

October, 2014- researcher, Technical University of Darmstadt

December, 2014

March, 2015- researcher, Technical University of Darmstadt

April, 2015

October, 2016- researcher, Technical University of Darmstadt

December, 2016 

 

Награды и достижения:

1.                  Победитель конкурса "Инженер года" в номинации "Инженерное искусство молодых" в 2011

2.                  Диплом победителя Всероссийского конкурса научно-исследовательских работ молодых ученых в области стратегического партнерства университетов и предприятий в области электроники

3.                  Золотая медаль X Московского международного салона инноваций и инвестиций за разработку высокопроизводительных магнитных холодильников

4.                  Серебряная медаль XIV Московского международного Салона изобретений и инновационных технологий «Архимед-2011» за разработку высокоэффективных твердотельных магнитных тепловых насосов

Бронзовая медаль

XV

Московского международного Салона изобретений и инновационных технологий «Архимед-2012» за разработку высокоэффективных магнитоэлектрических преобразователей