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Hierarchically Nanoporous 3D Assembly Composed of Functionalized Onion-Like Graphitic Carbon Nanospheres for Anode-Minimized Li Metal Batteries

Authors
Ha, SonHyun, Jong ChanKwak, Jin HwanLim, Hee-DaeYun, Young Soo
Issue Date
10월-2020
Publisher
WILEY-V C H VERLAG GMBH
Keywords
anode-minimized Li metal batteries; lithium metal batteries; metal anodes; nanoporous carbon; onion-like carbon
Citation
SMALL, v.16, no.39
Indexed
SCIE
SCOPUS
Journal Title
SMALL
Volume
16
Number
39
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/53019
DOI
10.1002/smll.202003918
ISSN
1613-6810
Abstract
Despite the recent attention for Li metal anode (LMA) with high theoretical specific capacity of approximate to 3860 mA h g(-1), it suffers from not enough practical energy densities and safety concerns originating from the excessive metal load, which is essential to compensate for the loss of Li sources resulting from their poor coulombic efficiencies (CEs). Therefore, the development of high-performance LMA is needed to realize anode-minimized Li metal batteries (LMBs). In this study, high-performance LMAs are produced by introducing a hierarchically nanoporous assembly (HNA) composed of functionalized onion-like graphitic carbon building blocks, several nanometers in diameter, as a catalytic scaffold for Li-metal storage. The HNA-based electrodes lead to a high Li ion concentration in the nanoporous structure, showing a high CE of approximate to 99.1%, high rate capability of 12 mA cm(-2), and a stable cycling behavior of more than 750 cycles. In addition, anode-minimized LMBs are achieved using a HNA that has limited Li content (approximate to 0.13 mg cm(-2)), corresponding to 6.5% of the cathode material (commercial NCM622 (approximate to 2 mg cm(-2))). The LMBs demonstrate a feasible electrochemical performance with high energy and power densities of approximate to 510 Wh kg(electrode)(-1)and approximate to 2760 W kg(electrode)(-1), respectively, for more than 100 cycles.
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Graduate School > KU-KIST Graduate School of Converging Science and Technology > 1. Journal Articles

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