Search Results - "Jow, T.R."

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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Hybrid lithium-ion capacitor with LiFePO4/AC composite cathode – Long term cycle life study, rate effect and charge sharing analysis by Shellikeri, A., Yturriaga, S., Zheng, J.S., Cao, W., Hagen, M., Read, J.A., Jow, T.R., Zheng, J.P.

“…Energy storage devices, which can combine the advantages of lithium-ion battery with that of electric double layer capacitor, are of prime interest. Recently,…”
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Hybrid lithium-ion battery-capacitor energy storage device with hybrid composite cathode based on activated carbon / LiNi0.5Co0.2Mn0.3O2 by Hagen, M., Yan, J., Cao, W.J., Chen, X.J., Shellikeri, A., Du, T., Read, J.A., Jow, T.R., Zheng, J.P.

“…As the energy demand around the world grows so does the need for devices that can be tailored to fit a specific design's parameters. Often, this can lead to a…”
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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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Improving the specific energy of Li-Ion capacitor laminate cell using hybrid activated Carbon/LiNi0.5Co0.2Mn0.3O2 as positive electrodes by Hagen, M., Cao, W.J., Shellikeri, A., Adams, D., Chen, X.J., Brandt, W., Yturriaga, S.R., Wu, Q., Read, J.A., Jow, T.R., Zheng, J.P.

“…In this work, we investigated the performance impact of LiNi0.5Co0.2Mn0.3O2 (NMC) as an additive to activated carbon (AC) electrodes within a high-performance…”
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High-energy lithium-ion battery using substituted LiCoPO4: From coin type to 1 Ah cell by Liu, D., Zhu, W., Kim, C., Cho, M., Guerfi, A., Delp, S.A., Allen, J.L., Jow, T.R., Zaghib, K.

“…Cr, Fe and Si were added to improve the performance of olivine LiCoPO4 in cathodes for lithium-ion batteries. A substituted-LiCoPO4 in a half cell delivered a…”
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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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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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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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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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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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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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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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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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Effect of propylene carbonate on the low temperature performance of Li-ion cells by Zhang, S.S, Xu, K, Allen, J.L, Jow, T.R

“…The effect of propylene carbonate (PC) on the low temperature performance of Li-ion cells was studied by comparing two electrolytes of 1 m LiPF 6 3:7 ethylene…”
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Implications of advanced capacitor dielectrics for performance of metallized film capacitor windings by Ho, J., Jow, T.R., Boggs, S.

“…A range of high dielectric capacitor films is under development with the objective of improving the energy density of pulsed discharge capacitors. A…”
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High energy and high power density electrochemical capacitors by Zheng, J.P., Jow, T.R.

“…High energy density electrochemical capacitors were built with a newly discovered electrode material (amorphous RuO 2· xH 2O). Energy densities as high as 96…”
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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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Hybrid power sources for pulsed current applications by Zheng, J.P., Jow, T.R., Ding, M.S.

“…A battery-capacitor hybrid power source was discharged under pulsed current conditions and various ambient temperatures. Significant improvements in voltage…”
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