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Maxim Maximov     Senior Scientist or Principal Investigator 
Peter the Great St.Petersburg Polytechnic University
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Maxim Maximov published an article in June 2018.
Research Keywords & Expertise
0 Atomic Layer Deposition
0 Lithium-ion Batteries
0 Nanoparticles
0 Thin Films
0 Solid State Batteries
Top co-authors See all
Guofu Zhou

145 shared publications

SCNU-TUE Joint Lab of Device Integrated Responsive Materials (DIRM), National Center for International Research on Green Optoelectronics, South China Normal University, No 378, West Waihuan Road, Guangzhou Higher Education Mega Center, Guangzhou 510006, China

Zhumabay Bakenov

94 shared publications

School of Engineering, Nazarbayev University, Institute of Batteries LLC, National Laboratory Astana, 53 Kabanbay Batyr Avenue, Astana 010000, Kazakhstan

Zhihong Chen

66 shared publications

International Academy of Optoelectronics at Zhaoqing, South China Normal University, Guangzhou, Guangdong Province 526060, China

Yongguang Zhang

35 shared publications

School of Materials Science & Engineering and Research Institute for Energy Equipment Materials, Hebei University of Technology, Tianjin 300130, China;(F.Y.);(J.R.);(G.W.)

Baoxi Liu

19 shared publications

Research Institute for Energy Equipment Materials, School of Materials Science and Engineering, Hebei University of Technology, Tianjin 300130, China

Publication Record
Distribution of Articles published per year 

Total number of journals
published in
Article 0 Reads 0 Citations Technological and economic perspectives for development and manufacturing of cathode materials for lithium-ion batteries... Yuri Koshtyal, Maxim Maximov, Denis Nazarov, Alexander Rumya... Published: 05 June 2018
SHS Web of Conferences, doi: 10.1051/shsconf/20184400048
DOI See at publisher website
Article 1 Read 1 Citation Biomass-Derived Oxygen and Nitrogen Co-Doped Porous Carbon with Hierarchical Architecture as Sulfur Hosts for High-Perfo... Yan Zhao, Li Wang, Lanyan Huang, Maxim. Yu. Maximov, Minglia... Published: 21 November 2017
Nanomaterials, doi: 10.3390/nano7110402
DOI See at publisher website PubMed View at PubMed ABS Show/hide abstract
In this work, a facile strategy to synthesize oxygen and nitrogen co-doped porous carbon (ONPC) is reported by one-step pyrolysis of waste coffee grounds. As-prepared ONPC possesses highly rich micro/mesopores as well as abundant oxygen and nitrogen co-doping, which is applied to sulfur hosts as lithium/sulfur batteries’ appropriate cathodes. In battery testing, the sulfur/oxygen and nitrogen co-doped porous carbon (S/ONPC) composite materials reveal a high initial capacity of 1150 mAh·g−1 as well as a reversible capacity of 613 mAh·g−1 after the 100th cycle at 0.2 C. Furthermore, when current density increases to 1 C, a discharge capacity of 331 mAh·g−1 is still attainable. Due to the hierarchical porous framework and oxygen/nitrogen co-doping, the S/ONPC composite exhibits a high utilization of sulfur and good electrochemical performance via the immobilization of the polysulfides through strong chemical binding.
Article 0 Reads 2 Citations Characterization and Electrochemical Performance at High Discharge Rates of Tin Dioxide Thin Films Synthesized by Atomic... M. Yu. Maximov, P. A. Novikov, D. V. Nazarov, A. M. Rymyants... Published: 26 July 2017
Journal of Electronic Materials, doi: 10.1007/s11664-017-5701-8
DOI See at publisher website
Article 0 Reads 0 Citations Facile Synthesis of [email protected] Nanoparticles Anchored on MWNT as High-Performance Anode Materials for Li-ion Batteries. Yan Zhao, Zhengjun Liu, Yongguang Zhang, Almagul Mentbayeva,... Published: 18 July 2017
Nanoscale Research Letters, doi: 10.1186/s11671-017-2226-2
DOI See at publisher website PubMed View at PubMed ABS Show/hide abstract
Carbon-coated silica nanoparticles anchored on multi-walled carbon nanotubes ([email protected]/MWNT composite) were synthesized via a simple and facile sol-gel method followed by heat treatment. Scanning and transmission electron microscopy (SEM and TEM) studies confirmed densely anchoring the carbon-coated SiO2 nanoparticles onto a flexible MWNT conductive network, which facilitated fast electron and lithium-ion transport and improved structural stability of the composite. As prepared, ternary composite anode showed superior cyclability and rate capability compared to a carbon-coated silica counterpart without MWNT ([email protected]). The [email protected]/MWNT composite exhibited a high reversible discharge capacity of 744 mAh g-1 at the second discharge cycle conducted at a current density of 100 mA g-1 as well as an excellent rate capability, delivering a capacity of 475 mAh g-1 even at 1000 mA g-1. This enhanced electrochemical performance of [email protected]/MWNT ternary composite anode was associated with its unique core-shell and networking structure and a strong mutual synergistic effect among the individual components.