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W2892600167 abstract "The exploration of anode materials with a high degree of electrochemical utilization for Li-ion batteries (LIBs) still remains a huge challenge despite pioneering breakthroughs. Rational engineering of electrode structures/components by facile strategies would offer infinite possibilities for the development of LIBs. In this study, one-dimensional ultralong nanohybrids of ultrafine NiCoO2 nanoparticles dispersed in situ in and/or on the surface of amorphous N-doped carbon nanofibers (NCO@ANCNFs) were fabricated by a bottom-up electrospinning protocol. By virtue of synergistic structural/component features, the obtained ultralong NCO@ANCNFs with low NCO loading (≈33.6 wt %) show highly efficient Li+ storage performance with high reversible capacity, high rate capability, and long cycle life. The unusual reversible crystalline transformation during cycling was analyzed. Quantitative analysis revealed that the pseudocapacitive contribution mainly accounts for the superior lithium storage of the NCO@ANCNFs. Besides, the ability of the hybrid anode to deliver competitive Li-storage properties even without conductive carbon greatly enhances its commercial applicability. An NCO@ANCNFs//LiNi0.8 Co0.15 Al0.05 O2 full battery was assembled and exhibited striking electrochemical properties. This contribution offers a scalable methodology to fabricate highly efficient hybrid anodes for advanced next-generation LIBs." @default.
W2892600167 created "2018-10-05" @default.
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W2892600167 date "2018-12-13" @default.
W2892600167 modified "2023-10-17" @default.
W2892600167 title "Spatially Self‐Confined Formation of Ultrafine NiCoO<sub>2</sub>Nanoparticles@Ultralong Amorphous N‐Doped Carbon Nanofibers as an Anode towards Efficient Capacitive Li<sup>+</sup>Storage" @default.
W2892600167 cites W159318761 @default.
W2892600167 cites W1626854854 @default.
W2892600167 cites W1949231392 @default.
W2892600167 cites W1957724175 @default.
W2892600167 cites W1973408623 @default.
W2892600167 cites W1974823530 @default.
W2892600167 cites W1976142163 @default.
W2892600167 cites W1987431355 @default.
W2892600167 cites W1991360608 @default.
W2892600167 cites W1998786662 @default.
W2892600167 cites W2001091046 @default.
W2892600167 cites W2011970149 @default.
W2892600167 cites W2014724250 @default.
W2892600167 cites W2021172010 @default.
W2892600167 cites W2024404374 @default.
W2892600167 cites W2030977676 @default.
W2892600167 cites W2032570058 @default.
W2892600167 cites W2034325505 @default.
W2892600167 cites W2040764900 @default.
W2892600167 cites W2040979815 @default.
W2892600167 cites W2041884193 @default.
W2892600167 cites W2041998463 @default.
W2892600167 cites W2042359604 @default.
W2892600167 cites W2044354905 @default.
W2892600167 cites W2049683922 @default.
W2892600167 cites W2053328406 @default.
W2892600167 cites W2053340326 @default.
W2892600167 cites W2054126852 @default.
W2892600167 cites W2063199751 @default.
W2892600167 cites W2070685233 @default.
W2892600167 cites W2074836528 @default.
W2892600167 cites W2077131294 @default.
W2892600167 cites W2084209469 @default.
W2892600167 cites W2084402364 @default.
W2892600167 cites W2097924219 @default.
W2892600167 cites W2099561411 @default.
W2892600167 cites W2099653242 @default.
W2892600167 cites W2111656086 @default.
W2892600167 cites W2115151119 @default.
W2892600167 cites W2120537050 @default.
W2892600167 cites W2123312343 @default.
W2892600167 cites W2146242392 @default.
W2892600167 cites W2160895440 @default.
W2892600167 cites W2162677524 @default.
W2892600167 cites W2164421297 @default.
W2892600167 cites W2172041720 @default.
W2892600167 cites W2227537205 @default.
W2892600167 cites W2276673106 @default.
W2892600167 cites W2314684688 @default.
W2892600167 cites W2315498268 @default.
W2892600167 cites W2317098509 @default.
W2892600167 cites W2331462359 @default.
W2892600167 cites W2462774717 @default.
W2892600167 cites W2499333136 @default.
W2892600167 cites W2559849225 @default.
W2892600167 cites W2565394229 @default.
W2892600167 cites W2607142387 @default.
W2892600167 cites W2610922313 @default.
W2892600167 cites W2620099508 @default.
W2892600167 cites W2742357691 @default.
W2892600167 cites W2747074598 @default.
W2892600167 cites W2765410569 @default.
W2892600167 cites W4243162403 @default.
W2892600167 cites W4246978782 @default.
W2892600167 doi "https://doi.org/10.1002/chem.201804823" @default.
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