Search Results - "Chernukhin, S. I."

Energy Storage Technologies Based on Electrochemical Double Layer Capacitors: A Review by Maletin, Y. A., Stryzhakova, N. G., Zelinskyi, S. O., Chernukhin, S. I.

“…Modern design approaches to electric energy storage devices based on nanostructured electrode materials, in particular, electrochemical double layer capacitors…”
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Precipitated nanosized titanium dioxide for electrochemical applications by Kirillov, S.A., Lisnycha, T.V., Chernukhin, S.I.

“…Two types of titanium dioxide samples precipitated from aqueous solutions of titanium tetrachloride are investigated. Crystalline materials are obtained by…”
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Citric acid aided synthesis, characterization, and high-rate electrochemical performance of LiNi0.5Mn1.5O4 by Potapenko, A.V., Chernukhin, S.I., Romanova, I.V., Rabadanov, K.Sh, Gafurov, M.M., Kirillov, S.A.

“…The citric acid aided synthesis, physico-chemical and electrochemical characterization of the nanosized nickel-doped lithium manganese spinel, LiNi0.5Mn1.5O4…”
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A new method of pretreatment of lithium manganese spinels and high-rate electrochemical performance of Li[Li0.033Mn1.967]O4 by Potapenko, A. V., Chernukhin, S. I., Kirillov, S. A.

“…Lithium manganese spinels tend to aggregate upon annealing and do not allow for attaining high discharge rates when used as cathodes in lithium-ion batteries…”
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A new method of pretreatment of lithium manganese spinels and high-rate electrochemical performance of Li[Li^sub 0.033^Mn^sub 1.967^]O^sub 4 by Potapenko, A V, Chernukhin, S I, Kirillov, S A

“…Lithium manganese spinels tend to aggregate upon annealing and do not allow for attaining high discharge rates when used as cathodes in lithium-ion batteries…”
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Citric acid aided synthesis, characterization, and high-rate electrochemical performance of LiNi sub(0.5)Mn sub(1.5)O sub(4) by Potapenko, A V, Chernukhin, SI, Romanova, I V, Rabadanov, KSh, Gafurov, M M, Kirillov, SA

“…The citric acid aided synthesis, physico-chemical and electrochemical characterization of the nanosized nickel-doped lithium manganese spinel, LiNi sub(0.5)Mn…”
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A new method of pretreatment of lithium manganese spinels and high-rate electrochemical performance of Li[Li sub(0.033)Mn sub(1.967)]O sub(4) by Potapenko, A V, Chernukhin, SI, Kirillov, SA

“…Lithium manganese spinels tend to aggregate upon annealing and do not allow for attaining high discharge rates when used as cathodes in lithium-ion batteries…”
Get full text