具有嵌入式 ZnO 纳米粒子的管状介孔碳纳米纤维用于超快储锂。

Tunneled Mesoporous Carbon Nanofibers with Embedded ZnO Nanoparticles for Ultrafast Lithium Storage.

机构信息

Program of Materials Science & Engineering, Convergence Institute of Biomedical Engineering and Biomaterials and ‡Department of Materials Science and Engineering, Seoul National University of Science and Technology , Seoul 139-743, Korea.

出版信息

ACS Appl Mater Interfaces. 2017 Apr 12;9(14):12478-12485. doi: 10.1021/acsami.7b01286. Epub 2017 Mar 28.

DOI:10.1021/acsami.7b01286

PMID:28323407

Abstract

Carbon and metal oxide composites have received considerable attention as anode materials for Li-ion batteries (LIBs) owing to their excellent cycling stability and high specific capacity based on the chemical and physical stability of carbon and the high theoretical specific capacity of metal oxides. However, efforts to obtain ultrafast cycling stability in carbon and metal oxide composites at high current density for practical applications still face important challenges because of the longer Li-ion diffusion pathway, which leads to poor ultrafast performance during cycling. Here, tunneled mesoporous carbon nanofibers with embedded ZnO nanoparticles (TMCNF/ZnO) are synthesized by electrospinning, carbonization, and postcalcination. The optimized TMCNF/ZnO shows improved electrochemical performance, delivering outstanding ultrafast cycling stability, indicating a higher specific capacity than previously reported ZnO-based anode materials in LIBs. Therefore, the unique architecture of TMCNF/ZnO has potential for use as an anode material in ultrafast LIBs.

摘要

碳和金属氧化物复合材料作为锂离子电池 (LIB) 的阳极材料受到了广泛关注，因为它们基于碳的化学和物理稳定性以及金属氧化物的高理论比容量，具有优异的循环稳定性和高比容量。然而，由于锂离子扩散路径较长，在高电流密度下获得碳和金属氧化物复合材料的超快速循环稳定性的努力仍然面临着重要的挑战，这导致了在循环过程中超快速性能不佳。在这里，通过静电纺丝、碳化和后煅烧合成了具有嵌入式 ZnO 纳米颗粒的隧道型中孔碳纳米纤维 (TMCNF/ZnO)。优化后的 TMCNF/ZnO 表现出改善的电化学性能，提供了出色的超快速循环稳定性，表明在 LIB 中具有比以前报道的基于 ZnO 的阳极材料更高的比容量。因此，TMCNF/ZnO 的独特结构有望用作超快速 LIB 的阳极材料。

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具有嵌入式 ZnO 纳米粒子的管状介孔碳纳米纤维用于超快储锂。

Tunneled Mesoporous Carbon Nanofibers with Embedded ZnO Nanoparticles for Ultrafast Lithium Storage.

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