Electrolytes and interphases in Li-ion batteries and beyond
K Xu - Chemical reviews, 2014 - ACS Publications
Ten years ago, a comprehensive review was compiled for a thematic issue of Chemical
Reviews, covering fundamentals, history, and state-of-the-art for nonaqueous electrolytes …
Reviews, covering fundamentals, history, and state-of-the-art for nonaqueous electrolytes …
Alloy negative electrodes for Li-ion batteries
MN Obrovac, VL Chevrier - Chemical reviews, 2014 - ACS Publications
Graphite is an excellent negative electrode (anode) material for Li-ion batteries. It has high
specific capacity (eg,∼ 2.5× higher than LiCoO 2), high volumetric capacity (∼ the same as …
specific capacity (eg,∼ 2.5× higher than LiCoO 2), high volumetric capacity (∼ the same as …
Interfacing electrolytes with electrodes in Li ion batteries
K Xu, A von Cresce - Journal of Materials Chemistry, 2011 - pubs.rsc.org
Aqui… Onde a terra termina eo mar já não começa—A poetic definition of a binary
liquid/solid interface by Luís de Camões (1572). Since its birth in early 1990s, Li ion battery …
liquid/solid interface by Luís de Camões (1572). Since its birth in early 1990s, Li ion battery …
New insights into the structure-property relationship of high-voltage electrolyte components for lithium-ion batteries using the pKa value
In pursuit of higher energy density in lithium-ion batteries (LIBs), a most promising approach
focuses on cathode materials that operate at higher potentials and exhibit even higher …
focuses on cathode materials that operate at higher potentials and exhibit even higher …
Interfacial structural stabilization on amorphous silicon anode for improved cycling performance in lithium-ion batteries
Interfacial structures of electrode–current collector and electrode–electrolyte have been
designed to be stabilized for improved cycling performance of amorphous silicon (Si) that is …
designed to be stabilized for improved cycling performance of amorphous silicon (Si) that is …
Roles of oxygen and interfacial stabilization in enhancing the cycling ability of silicon oxide anodes for rechargeable lithium batteries
Film model electrodes of silicon oxide (SiO x) with various oxygen content (x= 0.4, 0.85, 1.0
and 1.3) have been studied for the effects of oxygen content and interfacial reaction …
and 1.3) have been studied for the effects of oxygen content and interfacial reaction …
Magnesium storage performance and surface film formation behavior of tin anode material
Electrochemical cycling performance of microsize bulk and thin film Sn electrodes up to 50
cycles in Mg half‐cell configuration, as well as Mg diffusivity and interfacial reaction behavior …
cycles in Mg half‐cell configuration, as well as Mg diffusivity and interfacial reaction behavior …
Understanding the interfacial processes at silicon–copper electrodes in ionic liquid battery electrolyte
The interfacial processes at an amorphous silicon–copper (Si–Cu) electrode in the ionic
liquid electrolyte of 1 M lithium bis (trifluoromethanesulfonyl) imide/1-methyl-1 …
liquid electrolyte of 1 M lithium bis (trifluoromethanesulfonyl) imide/1-methyl-1 …
Pulsed laser deposition‐based thin film microbatteries
M Fenech, N Sharma - Chemistry–An Asian Journal, 2020 - Wiley Online Library
Emerging applications for robust small format or distributed devices feature a need for power
and rechargeable lithium‐ion batteries could play a significant role. This review focuses on a …
and rechargeable lithium‐ion batteries could play a significant role. This review focuses on a …
Mitigating the initial capacity loss (ICL) problem in high-capacity lithium ion battery anode materials
For lithium ion batteries, some non-carbonaceous anode materials have shown the
possibility of increasing the capacity of current anode materials (which are almost …
possibility of increasing the capacity of current anode materials (which are almost …