@article{ART001985733},
author={김헌태 and 김성인 and Hee-Lack Choi and Won Il Park and Chang-Sam Kim},
title={Effect of Zn/NaCl ratios on the charge/discharge performance in Na-ZnCl2 battery},
journal={Journal of the Korean Crystal Growth and Crystal Technology},
issn={1225-1429},
year={2015},
volume={25},
number={2},
pages={74-79},
doi={10.6111/JKCGCT.2015.25.2.074}
TY - JOUR
AU - 김헌태
AU - 김성인
AU - Hee-Lack Choi
AU - Won Il Park
AU - Chang-Sam Kim
TI - Effect of Zn/NaCl ratios on the charge/discharge performance in Na-ZnCl2 battery
JO - Journal of the Korean Crystal Growth and Crystal Technology
PY - 2015
VL - 25
IS - 2
PB - The Korea Association Of Crystal Growth, Inc.
SP - 74
EP - 79
SN - 1225-1429
AB - Na-ZnCl2 battery, which operates as the same mechanism of Na-NiCl2 battery using solid-electrolyte, is able to reduce its material cost by 40 % comparing to the Na-NiCl2 battery. It has been known that the Na-ZnCl2 battery produces Na2ZnCl4 as an intermediate phase during charge/discharge process. Therefore, the redox process is divided into four steps having the voltage range of 1.92~2.13 V. However, effects of the critical factors such as the composition of cathode materials, depth of charge and discharge, and additives have not been reported yet. We examined the effect of the Zn/NaCl ratios and revealed that its optimum ratio was in the range of 1.3~1.7.
KW - Zebra battery;Na-ZnCl2;Cathode ratio;Na2ZnCl4;Over-charge
DO - 10.6111/JKCGCT.2015.25.2.074
ER -
김헌태, 김성인, Hee-Lack Choi, Won Il Park and Chang-Sam Kim. (2015). Effect of Zn/NaCl ratios on the charge/discharge performance in Na-ZnCl2 battery. Journal of the Korean Crystal Growth and Crystal Technology, 25(2), 74-79.
김헌태, 김성인, Hee-Lack Choi, Won Il Park and Chang-Sam Kim. 2015, "Effect of Zn/NaCl ratios on the charge/discharge performance in Na-ZnCl2 battery", Journal of the Korean Crystal Growth and Crystal Technology, vol.25, no.2 pp.74-79. Available from: doi:10.6111/JKCGCT.2015.25.2.074
김헌태, 김성인, Hee-Lack Choi, Won Il Park, Chang-Sam Kim "Effect of Zn/NaCl ratios on the charge/discharge performance in Na-ZnCl2 battery" Journal of the Korean Crystal Growth and Crystal Technology 25.2 pp.74-79 (2015) : 74.
김헌태, 김성인, Hee-Lack Choi, Won Il Park, Chang-Sam Kim. Effect of Zn/NaCl ratios on the charge/discharge performance in Na-ZnCl2 battery. 2015; 25(2), 74-79. Available from: doi:10.6111/JKCGCT.2015.25.2.074
김헌태, 김성인, Hee-Lack Choi, Won Il Park and Chang-Sam Kim. "Effect of Zn/NaCl ratios on the charge/discharge performance in Na-ZnCl2 battery" Journal of the Korean Crystal Growth and Crystal Technology 25, no.2 (2015) : 74-79.doi: 10.6111/JKCGCT.2015.25.2.074
김헌태; 김성인; Hee-Lack Choi; Won Il Park; Chang-Sam Kim. Effect of Zn/NaCl ratios on the charge/discharge performance in Na-ZnCl2 battery. Journal of the Korean Crystal Growth and Crystal Technology, 25(2), 74-79. doi: 10.6111/JKCGCT.2015.25.2.074
김헌태; 김성인; Hee-Lack Choi; Won Il Park; Chang-Sam Kim. Effect of Zn/NaCl ratios on the charge/discharge performance in Na-ZnCl2 battery. Journal of the Korean Crystal Growth and Crystal Technology. 2015; 25(2) 74-79. doi: 10.6111/JKCGCT.2015.25.2.074
김헌태, 김성인, Hee-Lack Choi, Won Il Park, Chang-Sam Kim. Effect of Zn/NaCl ratios on the charge/discharge performance in Na-ZnCl2 battery. 2015; 25(2), 74-79. Available from: doi:10.6111/JKCGCT.2015.25.2.074
김헌태, 김성인, Hee-Lack Choi, Won Il Park and Chang-Sam Kim. "Effect of Zn/NaCl ratios on the charge/discharge performance in Na-ZnCl2 battery" Journal of the Korean Crystal Growth and Crystal Technology 25, no.2 (2015) : 74-79.doi: 10.6111/JKCGCT.2015.25.2.074
