Journal
JOURNAL OF POWER SOURCES
Volume 388, Issue -, Pages 11-18Publisher
ELSEVIER
DOI: 10.1016/j.jpowsour.2018.03.066
Keywords
ZnO nanorod array; ZnSnO3 quantum dots; Core-shell nanostructures; Binder-free anode; Lithium-ion battery
Funding
- Ministry of Science and Technology in Taiwan [MOST 105 - 2221-E-006 - 251-MY3, MOST 106 - 2221-E-006 - 202-MY3, MOST 107-3113-E-006-006]
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In this work, ZnSnO3 quantum dots (QDs), instead of commonly used conductive carbon, are grown on the ZnO nanorod (NR) array to construct the binder-free ZnO@ZnSnO3 QDs core-shell NR array electrode on carbon cloth for lithium-ion battery. The ZnO@ZnSnO3 QDs core-shell NR array electrode exhibits excellent lithium storage performance with an improved cycling performance and superior rate capability compared to the ZnO NR array electrode. At a current density of 200 mAg(-1), 15.8% capacity loss is acquired in the ZnO@ZnSnO3 QDs core shell NR array electrode after 110 cycles with capacity retention of 1073 mAhg(-1). Significant increases in reversible capacities from 340 to 545 mAhg(-1) and from 95 to 390 mAhg(-1) at current densities of 1000 and 2000 mAg(-1), respectively, are achieved as the ZnO NR arrays are coated with the ZnSnO3 QD shells. The remarkably improved electrochemical performances result from that the configuration of binder-free ZnO@ ZnSnO3 QDs core-shell NR array electrode not only facilitates the charge transfer through the solid electrolyte interface and the electronic/ionic conduction boundary as well as lithium ion diffusion but also effectively accommodates the volume change during repeated charge/discharge processes.
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