A review of solid electrolyte interphases on lithium metal anode
Lithium metal batteries (LMBs) are among the most promising candidates of high‐energy‐
density devices for advanced energy storage. However, the growth of dendrites greatly …
density devices for advanced energy storage. However, the growth of dendrites greatly …
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 …
A reality check and tutorial on electrochemical characterization of battery cell materials: How to choose the appropriate cell setup
The ever-increasing demand for electrical energy storage technologies triggered by the
demands for consumer electronics, stationary energy storage systems and especially the …
demands for consumer electronics, stationary energy storage systems and especially the …
Role of 1, 3-propane sultone and vinylene carbonate in solid electrolyte interface formation and gas generation
Lithium-ion coin cells containing electrolytes with and without 1, 3-propane sultone (PS) and
vinylene carbonate (VC) were prepared and investigated. The electrochemical performance …
vinylene carbonate (VC) were prepared and investigated. The electrochemical performance …
A special enabler for boosting cyclic life and rate capability of LiNi0. 8Co0. 1Mn0. 1O2: green and simple additive
Abstract LiNi 0.8 Co 0.1 Mn 0.1 O 2 (NCM811) is widely known for its extremely high specific
capacity and relatively low cost, which draws extensive attention worldwide. However, poor …
capacity and relatively low cost, which draws extensive attention worldwide. However, poor …
Studies of the capacity fade mechanisms of LiCoO2/Si-alloy: graphite cells
The capacity fade mechanisms of LiCoO 2/Si-alloy: graphite pouch cells filled with a 1M
LiPF 6 EC: EMC: FEC (27: 63: 10) electrolyte were studied using galvanostatic cycling …
LiPF 6 EC: EMC: FEC (27: 63: 10) electrolyte were studied using galvanostatic cycling …
Editors' Choice—Hindering Rollover Failure of Li[Ni0.5Mn0.3Co0.2]O2/Graphite Pouch Cells during Long-Term Cycling
Eventual rapid capacity loss or" rollover" failure of lithium-ion cells during long-term cycling
(> 3000 cycles in many cases) at room temperature was studied with Li [Ni 0.5 Mn 0.3 Co …
(> 3000 cycles in many cases) at room temperature was studied with Li [Ni 0.5 Mn 0.3 Co …
Progress and prospects of electrolyte chemistry of calcium batteries
The increasing energy storage demand of portable devices, electric vehicles, and scalable
energy storage has been driving extensive research for more affordable, more energy dense …
energy storage has been driving extensive research for more affordable, more energy dense …
Stabilizing LiCoO2/Graphite at High Voltages with an Electrolyte Additive
The energy density of commercial Li-ion batteries (LIBs) using LiCoO2 is adversely affected
by the limited access to the Li stored in the CoO2 lattice, which is imposed partially by the …
by the limited access to the Li stored in the CoO2 lattice, which is imposed partially by the …
Advanced characterizations of solid electrolyte interphases in lithium-ion batteries
Y Chu, Y Shen, F Guo, X Zhao, Q Dong… - Electrochemical energy …, 2020 - Springer
Solid electrolyte interphases (SEIs) in lithium-ion batteries (LIBs) are ionically conducting but
electronically insulating layers on electrode/electrolyte interfaces that form through the …
electronically insulating layers on electrode/electrolyte interfaces that form through the …