期刊
RSC ADVANCES
卷 3, 期 8, 页码 2812-2821出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/c2ra22943a
关键词
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资金
- National Research Foundation [NRF2009EWT-CERP001-036]
ZnMn2O4 structures of various morphologies (nanorods, nanofibers, nanowebs) have been prepared via a facile electrospinning technique by a simple variation of the sintering profile, and have subsequently been employed as anodes in lithium ion battery applications. After the sintering process, as-spun nanofibers with high aspect ratio have broken into short segments of ZnMn2O4 nanorods (ZMO-NR). Incorporating an intermediate carbonization step has strengthened the mechanical integrity of as-spun nanofibers, resulting in the formation of sintered nanofibers (ZMO-NF) and nanowebs (ZMO-NW). On the basis of FESEM, HRTEM and XRD studies, the formation mechanism of nanostructures consisting of hierarchically self-assembled ZnMn2O4 nanocrystals is discussed. Particle size distribution is computed by Rietveld refinement and HRTEM micrographs, while the valence states are confirmed by XPS. The initial discharge of ZMO-NF and ZMO-NW demonstrated a high capacity of similar to 1469 mA h g(-1) and 1526 mA h g(-1), respectively, in the voltage ranges of 0.005 V and 3.0 V versus Li/Li+ at 60 mA g(-1), associated with reversible capacities of similar to 705 mA h g(-1) and 530 mA h g(-1) after 50 cycles. Morphology tuning of anodes and the importance of interconnected nanoparticulate pathways for lithium ion diffusion are elucidated.
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