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Exploring low-cost high energy NASICON cathodes for sodium-ion batteries via a combined machine-learning, ab initio, and experimental approach

Authors
Soundharrajan, VaiyapuriAlfaruqi, Muhammad HilmyAlfaza, GhalibLee, JunLee, SeulgiPark, SohyunNithiananth, SubramanianPham, Duong TungHwang, Jang-YeonKim, Jaekook
Issue Date
Jul-2023
Publisher
ROYAL SOC CHEMISTRY
Citation
JOURNAL OF MATERIALS CHEMISTRY A, v.11, no.28, pp.15518 - 15531
Indexed
SCIE
SCOPUS
Journal Title
JOURNAL OF MATERIALS CHEMISTRY A
Volume
11
Number
28
Start Page
15518
End Page
15531
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/188781
DOI
10.1039/d3ta02291a
ISSN
2050-7488
Abstract
Sodium-ion batteries (SIBs) display the essential properties required of a reliable energy-storage device, such as vast availability, good voltage output, and cost-effectiveness. Although initial SIB cathodes delivered a significantly lower capacity than their lithium-ion battery counterparts, new high-capacity cathode materials for SIBs continue to be developed today. This study employed a combined machine-learning (ML), ab initio density functional theory (DFT), and experimental approach to develop low-cost and high-energy cathode materials, i.e. Na3.5MnV0.5Ti0.5(PO4)(3) (NMVTP), Na3.5MnV0.5Fe0.5(PO4)(3) (NMVFP), and Na3.5MnV0.5Al0.5(PO4)(3) (NMVAP). Among these materials, the carbon-coated Na3.5MnV0.5Ti0.5(PO4)(3) (NMVTP/C) with the most stable formation energy (-1.99 eV) registered an exceedingly high specific capacity of 133.14 mA h g(-1), a satisfactory Na+ (de)insertion voltage of 3.42 V, and a superior energy output of 455 W h kg(-1) in the half-cell configuration. NMVTP/C also exhibits a rapid sodium storage capability for 8000 cycles with a capacity retention of 75% at a considerably high current rate of 14C and an impressive rate proficiency of 59.2 mA h g(-1) at 17.5C.
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