Pseudocapacitance-Enhanced High-Rate Lithium Storage in "Honeycomb"-like Mn sub(2)O sub(3) Anodes

The realization of high-power lithium-ion batteries (LIBs) is heavily hampered by intrinsically slow lithium diffusion within solid electrodes. Capacitive-like lithium storage behavior observed in transition-metal oxide (TMO)-based anodes shed light on attaining battery-like capacity and supercapaci...

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Veröffentlicht in:	ChemElectroChem 2017-03, Vol.4 (3), p.565-569
Hauptverfasser:	Yuan, Tianzhi, Jiang, Yinzhu, Wang, Qiuting, Pan, Bin, Yan, Mi
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Sprache:	eng
Schlagworte:	Anodes Cycles Electrodes Evolution Lithium Lithium batteries Microstructure Rechargeable batteries
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creator	Yuan, Tianzhi Jiang, Yinzhu Wang, Qiuting Pan, Bin Yan, Mi
description	The realization of high-power lithium-ion batteries (LIBs) is heavily hampered by intrinsically slow lithium diffusion within solid electrodes. Capacitive-like lithium storage behavior observed in transition-metal oxide (TMO)-based anodes shed light on attaining battery-like capacity and supercapacitor-like rate performance simultaneously. Herein, "honeycomb"-like Mn sub(2)O sub(3) films were successfully demonstrated as anodes for LIBs, in which the pseudocapacitive effect is strengthened upon cycling, resulting in a high-rate lithium storage capability. Such pseudocapacitance originates from the unique porous structure and cycle-induced microstructure evolution. The reticular Mn sub(2)O sub(3) can reach 1584.9mAhg super(-1) over 250 cycles at 1Ag super(-1), 1564.9mAhg super(-1) after 500 cycles at 5A super(-1), and 475.6mAhg super(-1) at 15Ag super(-1). Sweet success! "Honeycomb"-like Mn sub(2)O sub(3) films are successfully demonstrated as anodes for lithium-ion batteries. The three-dimensional porous structure can accommodate aggregation and volume changes, as well as increase ionic/electrical conductivity for the electrode. Benefitting from the unique porous structure, the pseudocapacitive effect is strengthened by cycle-induced microstructure evolution, yielding excellent cycling performance and superior rate capability as anode materials for lithium storage.
doi_str_mv	10.1002/celc.201600588
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Capacitive-like lithium storage behavior observed in transition-metal oxide (TMO)-based anodes shed light on attaining battery-like capacity and supercapacitor-like rate performance simultaneously. Herein, "honeycomb"-like Mn sub(2)O sub(3) films were successfully demonstrated as anodes for LIBs, in which the pseudocapacitive effect is strengthened upon cycling, resulting in a high-rate lithium storage capability. Such pseudocapacitance originates from the unique porous structure and cycle-induced microstructure evolution. The reticular Mn sub(2)O sub(3) can reach 1584.9mAhg super(-1) over 250 cycles at 1Ag super(-1), 1564.9mAhg super(-1) after 500 cycles at 5A super(-1), and 475.6mAhg super(-1) at 15Ag super(-1). Sweet success! "Honeycomb"-like Mn sub(2)O sub(3) films are successfully demonstrated as anodes for lithium-ion batteries. The three-dimensional porous structure can accommodate aggregation and volume changes, as well as increase ionic/electrical conductivity for the electrode. 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The three-dimensional porous structure can accommodate aggregation and volume changes, as well as increase ionic/electrical conductivity for the electrode. Benefitting from the unique porous structure, the pseudocapacitive effect is strengthened by cycle-induced microstructure evolution, yielding excellent cycling performance and superior rate capability as anode materials for lithium storage.</abstract><doi>10.1002/celc.201600588</doi></addata></record>
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subjects	Anodes Cycles Electrodes Evolution Lithium Lithium batteries Microstructure Rechargeable batteries
title	Pseudocapacitance-Enhanced High-Rate Lithium Storage in "Honeycomb"-like Mn sub(2)O sub(3) Anodes
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