V
V.V. Volkov
Researcher at Brookhaven National Laboratory
Publications - 31
Citations - 1927
V.V. Volkov is an academic researcher from Brookhaven National Laboratory. The author has contributed to research in topics: Magnetic domain & Microscope. The author has an hindex of 12, co-authored 29 publications receiving 1690 citations. Previous affiliations of V.V. Volkov include Center for Functional Nanomaterials.
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Journal ArticleDOI
Conversion Reaction Mechanisms in Lithium Ion Batteries: Study of the Binary Metal Fluoride Electrodes
Feng Wang,R. Robert,Natasha A. Chernova,N. Pereira,Fredrick Omenya,Fadwa Badway,Xiao Hua,Michael C. Ruotolo,Ruigang Zhang,Lijun Wu,V.V. Volkov,Dong Su,Baris Key,M. Stanley Whittingham,Clare P. Grey,Clare P. Grey,Glenn G. Amatucci,Yimei Zhu,Jason Graetz +18 more
TL;DR: These results offer the first experimental evidence explaining the origins of the high lithium reversibility in FeF(2), and suggest that the massive interface formed between nanoscale solid phases provides a pathway for ionic transport during the conversion process.
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Ferroelectric order in individual nanometre-scale crystals
Mark J. Polking,Myung-Geun Han,Amin Yourdkhani,Valeri Petkov,Christian Kisielowski,V.V. Volkov,Yimei Zhu,Gabriel Caruntu,A. Paul Alivisatos,A. Paul Alivisatos,Ramamoorthy Ramesh,Ramamoorthy Ramesh +11 more
TL;DR: This work points the way to multi-Tbit/in(2) memories and provides a glimpse of the structural and electrical manifestations of ferroelectricity down to its ultimate limits.
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Chemical Distribution and Bonding of Lithium in Intercalated Graphite: Identification with Optimized Electron Energy Loss Spectroscopy
TL;DR: N nanoscale maps of the lithium spatial distribution in electrochemically lithiated graphite are reported using electron energy loss spectroscopy in the transmission electron microscope under optimized experimental conditions and the ionic nature of the intercalated lithium with significant charge transfer to the graphene sheets is revealed.
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Ordered bilayer ruthenium–platinum core-shell nanoparticles as carbon monoxide-tolerant fuel cell catalysts
Yu Chi Hsieh,Yu Zhang,Dong Su,V.V. Volkov,Rui Si,Lijun Wu,Yimei Zhu,Wei An,Ping Liu,Ping He,Siyu Ye,Radoslav R. Adzic,Jia X. Wang +12 more
TL;DR: The single crystalline Ru cores with well-defined Pt bilayer shells resolve the dilemma in using a dissolution-prone metal for alleviating the deactivating effect of carbon monoxide, opening the door for commercialization of low-temperature fuel cells that can use inexpensive reformates (H2 with CO impurity) as the fuel.
Journal ArticleDOI
On the transport of intensity technique for phase retrieval.
TL;DR: It is shown here that the Transport of Intensity is a wave-optical technique that works in a special regime of small defocus where the image intensity is linear with the defocus parameter.