Results 221 to 230 of about 19,018 (261)
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Nonaqueous Electrolytes and Advances in Additives
2014In retrospect, development of additives for Li-ion battery electrolyte has made significant progress in recent 15 years. Therefore, it is getting difficult to learn rapidly and systematically about this subject from past to present. Today, it is totally impossible to satisfy all the required battery properties by single additive in the electrolyte, and
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Prediction of Electrolyte and Additive Electrochemical Stabilities
2014The rapid advent of computational power and re-chargeable lithium batteries was in many ways simultaneous in the early 1990s — but not coupled to each Other to a large extent at the time of the breakthroughs. However, as the new computers and computational methods were efficient, these fast became used in the field to model well-known battery materials
Johan Scheers, Patrik Johansson
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Exploration of New Electrolyte Additive for Solid Electrolyte Interphase (SEI) Modification
ECS Meeting Abstracts, 2019Solid electrolyte interphase (SEI), which is generated from the decomposition of the electrolyte at low potentials, plays an important role in repeated reversible ion transport and thus dictates the cycle life of electrochemical cells. [1] A stable SEI layer effectively suppresses the continuous decomposition of the electrolyte and enhances the fast ...
Jingnan Li +3 more
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Sintering Additives for Garnet-Type Electrolytes
2019Producing densified garnet-type solid electrolytes by lowering sintering temperature is an important target, which can prevent not only the lithium loss (controlling chemical stoichiometry) but also make it more compatible with cathode electrode materials.
Nataly C. Rosero-Navarro +1 more
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Electrolytic manganese metal from chloride electrolytes. II. Effect of additives
Journal of Applied Electrochemistry, 1976Results of beaker scale and large laboratory scale experiments on the deposition of manganese from chloride electrolytes using selenium based additives are reported. High cathode efficiencies (85–90%) were obtained at moderate selenium levels (0.03–0.06 gl−1). Selenium pick-up in the deposit was lower when selenium was added as the selenate [Se(VI)]. A
I. E. Lewis +2 more
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Functional electrolytes: Synergetic effect of electrolyte additives for lithium-ion battery
Journal of Power Sources, 2008We have found that certain combinations of specific additives show a very interesting behavior in Li-ion batteries. During the course of investigating further improvements in the performance of the triple-bonded compounds, which we very recently reported, a novel and unique effect of an additive combination was observed.
Koji Abe +4 more
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Effects of Solvents, Additives and Electrolytes
ELECTROPHORESIS, 2007Kenndler, Ernst, Riekkola, Marja-Liisa
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Improving Linear Alkyl Carbonate Electrolytes with Electrolyte Additives
Journal of The Electrochemical Society, 2017Jian Xia +3 more
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Effect of Addition of Electrolytes
Industrial & Engineering Chemistry, 1949Leo Garwin, Arthur N. Hixson
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Gaseous electrolyte additive BF3 for high-power Li/CFx primary batteries
Energy Storage Materials, 2021Xiaorui Sun, Xiqian Yu, Hong Li
exaly

