Search Results - "JOW, R"

Electrochemical impedance study on the low temperature of Li-ion batteries by Zhang, S.S., Xu, K., Jow, T.R.

“…Cycling performance of Li-ion cells was studied by using electrochemical impedance spectroscopy (EIS). Results showed that total resistance ( R cell) of the…”
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The low temperature performance of Li-ion batteries by Zhang, S.S., Xu, K., Jow, T.R.

“…A symmetric cell was adopted to analyze low temperature performance of Li-ion battery. Results showed that impedances of both Li-ion and symmetric cells are…”
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EIS study on the formation of solid electrolyte interface in Li-ion battery by Zhang, S.S., Xu, K., Jow, T.R.

“…Formation of solid electrolyte interface (SEI) on the surface of graphite in Li/graphite cells was studied using the electrochemical impedance spectroscopy…”
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Structural Changes and Reversibility Upon Deintercalation of Li from LiCoPO4 Derivatives by Lapping, J. G, Borkiewicz, O. J, Wiaderek, K. M, Allen, J. L, Jow, T. R, Cabana, J

“…In an effort to improve the cycle life and rate capability of olivine LiCoPO4, Cr, Fe, and Si were added to produce nominal…”
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Study of the charging process of a LiCoO2-based Li-ion battery by ZHANG, S. S, XU, K, JOW, T. R

“…A three-electrode Li-ion cell with metallic lithium as the reference electrode was designed to study the charging process of Li-ion cells. The cell was…”
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Aluminum corrosion in electrolyte of Li-ion battery by Zhang, S.S, Jow, T.R

“…The effect of lithium salt and electrolyte solvent on Al corrosion in Li-ion battery electrolytes was studied by using linear sweep voltammetry (LSV) and…”
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Low temperature performance of nanophase Li4Ti5O12 by ALLEN, J. L, JOW, T. R, WOLFENSTINE, J

“…The low temperature electrochemical performances of 700 and 350nm Li4Ti5O12 were compared. At high rate, room temperature and at low rate and low temperature…”
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Charge and discharge characteristics of a commercial LiCoO2-based 18650 Li-ion battery by ZHANG, S. S, XU, K, JOW, T. R

“…We studied the charge and discharge characteristics of commercial LiCoO2-based 18650 cells by using various electrochemical methods, including discharging at…”
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Enhanced performance of Li-ion cell with LiBF4-PC based electrolyte by addition of small amount of LiBOB by ZHANG, S. S, XU, K, JOW, T. R

“…LiBF4-PC based electrolytes have superior potentials in enhancing cycling performance of Li-ion cells at low temperature and at high current rate,…”
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An improved electrolyte for the LiFePO4 cathode working in a wide temperature range by ZHANG, S. S, XU, K, JOW, T. R

“…A LiBF4-LiBOB (lithium bis(oxalato)borate) salt mixture was used to formulate an electrolyte for the operation of a LiFePO4 cathode over a wide temperature…”
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An inorganic composite membrane as the separator of Li-ion batteries by Zhang, S.S., Xu, K., Jow, T.R.

“…We studied an inorganic composite membrane as the separator for Li-ion batteries. Being made of mainly CaCO 3 powder and a small amount of polymer binder, the…”
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Evaluation on a water-based binder for the graphite anode of Li-ion batteries by Zhang, S.S., Xu, K., Jow, T.R.

“…We evaluate poly(acrylamide-co-diallyldimethylammonium chloride) (AMAC) as a water-based binder for the graphite anode of Li-ion batteries. It is shown that…”
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Low temperature performance of graphite electrode in Li-ion cells by Zhang, S.S, Xu, K, Jow, T.R

“…We studied low temperature performance of Li/graphite cell. Results show that capacity of the graphite electrode falls significantly in the temperature range…”
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A new approach toward improved low temperature performance of Li-ion battery by Zhang, S.S, Xu, K, Jow, T.R

“…We report a new approach toward formulating an electrolyte for low temperature operation of Li-ion batteries. The core of this new approach is to use LiBF 4…”
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Optimization of reaction condition for solid-state synthesis of LiFePO4-C composite cathodes by ZHANG, S. S, ALLEN, J. L, XU, K, JOW, T. R

“…We optimized synthesis condition of LiFePO4-C composites by solid-state reaction of LiH2PO4 and FeC2O4.2H2O in the presence of carbon powder. The preparation…”
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Tris(2,2,2-trifluoroethyl) phosphite as a co-solvent for nonflammable electrolytes in Li-ion batteries by Zhang, S.S, Xu, K, Jow, T.R

“…In this work, we used tris(2,2,2-trifluoroethyl) phosphite (TTFP), in which the oxidization number of phosphorus was three (III), to formulate nonflammable…”
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Microporous poly(acrylonitrile-methyl methacrylate) membrane as a separator of rechargeable lithium battery by Zhang, S.S, Ervin, M.H, Xu, K, Jow, T.R

“…We studied microporous poly(acrylonitrile-methyl methacrylate), AMMA, membrane as the separator of Li/LiMn 2O 4 cell. The porous AMMA membrane was prepared by…”
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Study of poly(acrylonitrile-methyl methacrylate) as binder for graphite anode and LiMn2O4 cathode of Li-ion batteries by ZHANG, S. S, JOW, T. R

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LiBOB-based gel electrolyte Li-ion battery for high temperature operation by Zhang, S.S., Xu, K., Jow, T.R.

“…In this work, we evaluated the chemical compatibility of 1.0m (molality) lithium bis(oxalate)borate (LiBOB) 1:1 (w/w) propylene carbonate (PC)/ethylene…”
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Analysis of the FePO4 to LiFePO4 phase transition by Allen, J. L., Jow, T. R., Wolfenstine, J.

“…The electrochemical phase transformation of carbon coated nanophase (60–70 nm) FePO 4 to LiFePO 4 was investigated by use of the Avrami–Johnson–Mehl–Eroofev…”
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