Hollow mesoporous hetero-ZnO/ZnMnO 3 microspheres: template-free formation process and enhanced lithium storage capability towards Li-ion batteries as a competitive anode

Hierarchical hollow porous structures have attracted enormous attention in the field of emerging electrochemical energy storage. Spinel ZnMnO 3 stands out from other metal oxide-based anodes thanks to its affordability, environmental friendliness, safety and large capacity. However, its modestly hig...

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Veröffentlicht in:	Journal of materials chemistry. A, Materials for energy and sustainability Materials for energy and sustainability, 2019-02, Vol.7 (7), p.3264-3277
Hauptverfasser:	Zhang, Yanru, Wang, Zhengluo, Zaman, Fakhr uz, Zhao, Zhiwei, Sun, Xuan, Zhang, Jinyang, Hou, Linrui, Yuan, Changzhou
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Sprache:	eng
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creator	Zhang, Yanru Wang, Zhengluo Zaman, Fakhr uz Zhao, Zhiwei Sun, Xuan Zhang, Jinyang Hou, Linrui Yuan, Changzhou
description	Hierarchical hollow porous structures have attracted enormous attention in the field of emerging electrochemical energy storage. Spinel ZnMnO 3 stands out from other metal oxide-based anodes thanks to its affordability, environmental friendliness, safety and large capacity. However, its modestly high-rate capability and cycling stability should be addressed for advanced Li-ion batteries (LIBs) via smartly engineering the electrode structures/components using simple strategies. In this contribution, we devised a scalable bottom-up methodology for the fabrication of hollow mesoporous ZnO/ZnMnO 3 (ZZMO) microspheres. The underlying template-free formation mechanism was rationally proposed. Benefiting from synergistic contributions from the bi-component-active ZnO–ZnMnO 3 hetero-structure at the nanoscale, hollow and mesoporosity, the resultant hollow ZZMO microspheres were endowed with a large reversible capacity of ∼695 mA h g −1 at 1 A g −1 , as well as stable cycling performance and a remarkable rate capability when utilized as a competitive anode for LIBs. Furthermore, the quantitative analysis demonstrates that the main faradaic capacitive contribution accounts for the outstanding lithium storage of the ZZMO anode. Promisingly, the LiNi 0.8 Co 0.1 Mn 0.1 O 2 //ZZMO full battery achieved a capacity of ∼121.0 mA h g −1 at 0.1 A g −1 , and energy density of ∼188.6 W h kg −1 . More significantly, these results highlight that hollow porous ZZMO microspheres would be a promising low-cost anode for next-generation LIBs.
doi_str_mv	10.1039/C8TA10911G
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Spinel ZnMnO 3 stands out from other metal oxide-based anodes thanks to its affordability, environmental friendliness, safety and large capacity. However, its modestly high-rate capability and cycling stability should be addressed for advanced Li-ion batteries (LIBs) via smartly engineering the electrode structures/components using simple strategies. In this contribution, we devised a scalable bottom-up methodology for the fabrication of hollow mesoporous ZnO/ZnMnO 3 (ZZMO) microspheres. The underlying template-free formation mechanism was rationally proposed. Benefiting from synergistic contributions from the bi-component-active ZnO–ZnMnO 3 hetero-structure at the nanoscale, hollow and mesoporosity, the resultant hollow ZZMO microspheres were endowed with a large reversible capacity of ∼695 mA h g −1 at 1 A g −1 , as well as stable cycling performance and a remarkable rate capability when utilized as a competitive anode for LIBs. Furthermore, the quantitative analysis demonstrates that the main faradaic capacitive contribution accounts for the outstanding lithium storage of the ZZMO anode. Promisingly, the LiNi 0.8 Co 0.1 Mn 0.1 O 2 //ZZMO full battery achieved a capacity of ∼121.0 mA h g −1 at 0.1 A g −1 , and energy density of ∼188.6 W h kg −1 . More significantly, these results highlight that hollow porous ZZMO microspheres would be a promising low-cost anode for next-generation LIBs.</description><identifier>ISSN: 2050-7488</identifier><identifier>EISSN: 2050-7496</identifier><identifier>DOI: 10.1039/C8TA10911G</identifier><language>eng</language><ispartof>Journal of materials chemistry. 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A, Materials for energy and sustainability</title><description>Hierarchical hollow porous structures have attracted enormous attention in the field of emerging electrochemical energy storage. Spinel ZnMnO 3 stands out from other metal oxide-based anodes thanks to its affordability, environmental friendliness, safety and large capacity. However, its modestly high-rate capability and cycling stability should be addressed for advanced Li-ion batteries (LIBs) via smartly engineering the electrode structures/components using simple strategies. In this contribution, we devised a scalable bottom-up methodology for the fabrication of hollow mesoporous ZnO/ZnMnO 3 (ZZMO) microspheres. The underlying template-free formation mechanism was rationally proposed. Benefiting from synergistic contributions from the bi-component-active ZnO–ZnMnO 3 hetero-structure at the nanoscale, hollow and mesoporosity, the resultant hollow ZZMO microspheres were endowed with a large reversible capacity of ∼695 mA h g −1 at 1 A g −1 , as well as stable cycling performance and a remarkable rate capability when utilized as a competitive anode for LIBs. Furthermore, the quantitative analysis demonstrates that the main faradaic capacitive contribution accounts for the outstanding lithium storage of the ZZMO anode. Promisingly, the LiNi 0.8 Co 0.1 Mn 0.1 O 2 //ZZMO full battery achieved a capacity of ∼121.0 mA h g −1 at 0.1 A g −1 , and energy density of ∼188.6 W h kg −1 . 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A, Materials for energy and sustainability</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Zhang, Yanru</au><au>Wang, Zhengluo</au><au>Zaman, Fakhr uz</au><au>Zhao, Zhiwei</au><au>Sun, Xuan</au><au>Zhang, Jinyang</au><au>Hou, Linrui</au><au>Yuan, Changzhou</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Hollow mesoporous hetero-ZnO/ZnMnO 3 microspheres: template-free formation process and enhanced lithium storage capability towards Li-ion batteries as a competitive anode</atitle><jtitle>Journal of materials chemistry. A, Materials for energy and sustainability</jtitle><date>2019-02-12</date><risdate>2019</risdate><volume>7</volume><issue>7</issue><spage>3264</spage><epage>3277</epage><pages>3264-3277</pages><issn>2050-7488</issn><eissn>2050-7496</eissn><abstract>Hierarchical hollow porous structures have attracted enormous attention in the field of emerging electrochemical energy storage. Spinel ZnMnO 3 stands out from other metal oxide-based anodes thanks to its affordability, environmental friendliness, safety and large capacity. However, its modestly high-rate capability and cycling stability should be addressed for advanced Li-ion batteries (LIBs) via smartly engineering the electrode structures/components using simple strategies. In this contribution, we devised a scalable bottom-up methodology for the fabrication of hollow mesoporous ZnO/ZnMnO 3 (ZZMO) microspheres. The underlying template-free formation mechanism was rationally proposed. Benefiting from synergistic contributions from the bi-component-active ZnO–ZnMnO 3 hetero-structure at the nanoscale, hollow and mesoporosity, the resultant hollow ZZMO microspheres were endowed with a large reversible capacity of ∼695 mA h g −1 at 1 A g −1 , as well as stable cycling performance and a remarkable rate capability when utilized as a competitive anode for LIBs. Furthermore, the quantitative analysis demonstrates that the main faradaic capacitive contribution accounts for the outstanding lithium storage of the ZZMO anode. Promisingly, the LiNi 0.8 Co 0.1 Mn 0.1 O 2 //ZZMO full battery achieved a capacity of ∼121.0 mA h g −1 at 0.1 A g −1 , and energy density of ∼188.6 W h kg −1 . More significantly, these results highlight that hollow porous ZZMO microspheres would be a promising low-cost anode for next-generation LIBs.</abstract><doi>10.1039/C8TA10911G</doi><tpages>14</tpages><orcidid>https://orcid.org/0000-0002-6484-8970</orcidid></addata></record>
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title	Hollow mesoporous hetero-ZnO/ZnMnO 3 microspheres: template-free formation process and enhanced lithium storage capability towards Li-ion batteries as a competitive anode
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