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Rumyantsev, Aleksandr Mikailovich
Statistics Math-Net.Ru
Total publications: 9
Scientific articles: 9

Number of views:
This page:88
Abstract pages:442
Full texts:237
Candidate of chemical sciences

https://www.mathnet.ru/eng/person184023
List of publications on Google Scholar
List of publications on ZentralBlatt

Publications in Math-Net.Ru Citations
2021
1. D. A. Lozhkina, E. V. Astrova, A. I. Lihachev, A. V. Parfeneva, A. M. Rumyantsev, A. N. Smirnov, V. P. Ulin, “Silicon monoxide carbonized by fluorocarbon as a composite material for anodes of lithium-ion batteries”, Zhurnal Tekhnicheskoi Fiziki, 91:9 (2021),  1381–1392  mathnet  elib; Tech. Phys., 66:11 (2021), 1228–1240  scopus 4
2020
2. D. A. Lozhkina, A. M. Rumyantsev, E. V. Astrova, “Impedance spectroscopy of porous silicon and silicon-carbon anodes produced by sintering”, Fizika i Tekhnika Poluprovodnikov, 54:3 (2020),  310–318  mathnet  elib; Semiconductors, 54:3 (2020), 383–391 8
3. Yu. A. Polozhentseva, M. P. Karushev, A. M. Rumyantsev, I. A. Chepurnaya, A. M. Timonov, “A lithium-ion supercapacitor with a positive electrode based on a carbon material modified by polymeric complexes of nickel with Schiff bases”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 46:4 (2020),  48–51  mathnet  elib; Tech. Phys. Lett., 46:2 (2020), 196–199 8
4. E. V. Astrova, A. V. Parfeneva, A. M. Rumyantsev, V. P. Ulin, M. V. Baidakova, V. N. Nevedomskiy, A. V. Nashchekin, “The effect of thermal treatment on properties of composite silicon–carbon anodes for lithium-ion batteries”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 46:3 (2020),  14–18  mathnet  elib; Tech. Phys. Lett., 46:2 (2020), 114–117 4
2019
5. G. V. Li, E. V. Astrova, N. E. Preobrazhenskii, A. M. Rumyantsev, S. I. Pavlov, E. V. Beregulin, “Negative electrodes for lithium-ion batteries obtained by photoanodization of solar-grade silicon”, Zhurnal Tekhnicheskoi Fiziki, 89:5 (2019),  711–716  mathnet  elib; Tech. Phys., 64:5 (2019), 660–665 2
6. G. V. Li, E. V. Astrova, A. M. Rumyantsev, “Electrochemical amorphization as a method to increase the rate capability of crystalline silicon anodes for lithium-ion batteries”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 45:22 (2019),  16–20  mathnet  elib; Tech. Phys. Lett., 45:11 (2019), 1131–1135 1
2017
7. N. E. Preobrazhenskii, E. V. Astrova, S. I. Pavlov, V. B. Voronkov, A. M. Rumyantsev, V. V. Zhdanov, “Anodes for Li-ion batteries based on $p$-Si with self-organized macropores”, Fizika i Tekhnika Poluprovodnikov, 51:1 (2017),  79–88  mathnet  elib; Semiconductors, 51:1 (2017), 78–87 10
2016
8. E. V. Astrova, A. M. Rumyantsev, G. V. Li, A. V. Nashchekin, D. Yu. Kazantsev, B. Ya. Ber, V. V. Zhdanov, “Electrochemical lithiation of silicon with varied crystallographic orientation”, Fizika i Tekhnika Poluprovodnikov, 50:7 (2016),  979–986  mathnet  elib; Semiconductors, 50:7 (2016), 963–969 6
9. E. V. Astrova, G. V. Li, A. M. Rumyantsev, V. V. Zhdanov, “Electrochemical characteristics of nanostructured silicon anodes for lithium-ion batteries”, Fizika i Tekhnika Poluprovodnikov, 50:2 (2016),  279–286  mathnet  elib; Semiconductors, 50:2 (2016), 276–283 8

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