High-energy O3-Na1-2xCax[Ni0.5Mn0.5]O(2)cathodes for long-life sodium-ion batteries

Authors
Yu, Tae-YeonKim, JongsoonHwang, Jang-YeonKim, HyungsubHan, GeumjaeJung, Hun-GiSun, Yang-Kook
Issue Date
2020-07-21
Publisher
ROYAL SOC CHEMISTRY
Citation
JOURNAL OF MATERIALS CHEMISTRY A, v.8, no.27, pp.13776 - 13786
Abstract
To facilitate the practical realization of sodium-ion batteries, the energy density, determined by the output operating voltage and/or capacity, needs to be improved to the level of commercial Li-ion batteries. Herein, O3-type Na0.98Ca0.01[Ni0.5Mn0.5]O(2)is synthesized by incorporating Ca(2+)into the NaO(6)octahedron of Na[Ni0.5Mn0.5]O(2)and its potential use as a cathode material for high energy density SIBs is demonstrated. The ionic radius of calcium (approximate to 1.00 angstrom) is similar to that of sodium (approximate to 1.02 angstrom); hence, it is energetically favorable for calcium to occupy sites in the sodium layers. Within a wide operating voltage range of 2.0-4.3 V, O3-type Na0.98Ca0.01[Ni0.5Mn0.5]O(2)exhibits a reversible O3-P3-O3 phase transition with small volume changes compared to Ca-free Na[Ni0.5Mn0.5]O(2)because of the strong interaction between Ca(2+)and O(2-)and delivers a high reversible capacity of 209 mA h g(-1)at 15 mA g(-1)with improved cycling stability. Moreover, Ca substitution improves the practically useful aspects such as thermal and air stability. A prototype pouch full cell with a hard carbon anode shows an excellent capacity retention of 67% over 300 cycles. Thus, this study provides an efficient and simple method to boost the performance and applicability of layered oxide cathode materials for practical applications.
Keywords
NA-ION; ELECTROCHEMICAL PERFORMANCE; NANI0.5MN0.5O2 CATHODE; ELECTRONIC-STRUCTURE; LAYERED OXIDES; CELLS; STABILITY; METALS; NACRO2; NA-ION; ELECTROCHEMICAL PERFORMANCE; NANI0.5MN0.5O2 CATHODE; ELECTRONIC-STRUCTURE; LAYERED OXIDES; CELLS; STABILITY; METALS; NACRO2
ISSN
2050-7488
URI
https://pubs.kist.re.kr/handle/201004/118371
DOI
10.1039/d0ta04847j
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KIST Article > 2020
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