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A New High-Energy Cathode for a Na-Ion Battery with Ultrahigh StabilityHighly Cited Paper

Cited 295 time in webofscience Cited 299 time in scopus
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Title
A New High-Energy Cathode for a Na-Ion Battery with Ultrahigh Stability
Author(s)
Young-Uk Park; Dong-Hwa Seo; Hyung-Soon Kwon; Kim, BK; Kim, JS; Kim, HY; Inkyung Kim; Yoo, HI; Kisuk Kang
Subject
Capacity retention, ; Energy storage systems, ; Intercalation cathodes, ; Long term stability, ; Low-cost technology, ; Multi-electron redoxes, ; Rate capabilities, ; Use of renewable energies, ; Energy storage, ; Ions, ; Lithium compounds, ; Redox reactions, ; Cathodes, ; sodium ion, ; vanadium, ; article, ; biogeochemical cycling, ; crystal structure, ; density functional theory, ; electric battery, ; electric conductivity, ; electricity, ; electrochemical impedance spectroscopy, ; electron spin resonance, ; electron transport, ; miscibility, ; molecular stability, ; nuclear magnetic resonance spectroscopy, ; oxidation reduction potential, ; oxidation reduction reaction, ; renewable energy, ; room temperature, ; scanning electron microscopy, ; transmission electron microscopy, ; X ray powder diffraction
Publication Date
2013-09
Journal
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, v.135, no.37, pp.13870 - 13878
Publisher
AMER CHEMICAL SOC
Abstract
Large-scale electric energy storage is a key enabler for the use of renewable energy. Recently, the room-temperature Na-ion battery has been rehighlighted as an alternative low-cost technology for this application. However, significant challenges such as energy density and long-term stability must be addressed. Herein, we introduce a novel cathode material, Na 1.5VPO4.8F0.7, for Na-ion batteries. This new material provides an energy density of ∼600 Wh kg-1, the highest value among cathodes, originating from both the multielectron redox reaction (1.2 e- per formula unit) and the high potential (∼3.8 V vs Na+/Na) of the tailored vanadium redox couple (V3.8+/ V5+). Furthermore, an outstanding cycle life (∼95% capacity retention for 100 cycles and ∼84% for extended 500 cycles) could be achieved, which we attribute to the small volume change (2.9%) upon cycling, the smallest volume change among known Na intercalation cathodes. The open crystal framework with two-dimensional Na diffusional pathways leads to low activation barriers for Na diffusion, enabling excellent rate capability. We believe that this new material can bring the low-cost room-temperature Na-ion battery a step closer to a sustainable large-scale energy storage system. © 2013 American Chemical Society.
URI
https://pr.ibs.re.kr/handle/8788114/1268
DOI
10.1021/ja406016j
ISSN
0002-7863
Appears in Collections:
Center for Nanoparticle Research(나노입자 연구단) > 1. Journal Papers (저널논문)
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