Alkali to alkaline earth metals: a DFT study of monolayer TiSi2N4 for metal ion batteries

Authors
Ahmad, SherazDin, Haleem UdNguyen, Cuong Q.Nguyen, Son-TungNguyen, C.
Issue Date
2024-02
Publisher
Royal Society of Chemistry
Citation
Dalton Transactions, v.53, no.8, pp.3785 - 3796
Abstract
A significant problem in the area of rechargeable alkali ion battery technologies is the exploration of anode materials with overall high specific capacities and superior physical properties. By using first-principles calculations, we have determined that monolayer TiSi2N4 is precisely such a potential anode candidate. Its demonstrated dynamic, thermal, mechanical, and energetic stabilities make it feasible for experimental realization. An important benefit of the electrode conductivity is that the electronic structure reveals that the pristine system experiences a change from a semiconductor to a metal throughout the entire alkali adsorption process. What's more interesting is that monolayer TiSi2N4 can support up to double-sided 3-layer ad-atoms, resulting in extremely high theoretical capacities for Li, Na, Mg, and K of 1004, 854, 492 and 531 mA h g(-1) and low average open-circuit voltages of 0.55, 0.25, 0.55, and -1.3 V, respectively. Alkali diffusion on the surface has been demonstrated to occur extremely quickly, with migration energy barriers for Li, Na, Mg, and K as low as 0.25, 0.14, 0.10, and 0.07 eV, respectively. The results reveal that the migration barrier energy is the lowest for Li and Mg from path-2 and Na and K from path-1. Overall, these findings suggest that monolayer TiSi2N4 is a suitable anode candidate for use in high-performance and low-cost metal-ion batteries.
Keywords
LI-ION; ANODE MATERIAL; NEGATIVE ELECTRODES; LITHIUM; CRYSTAL
ISSN
1477-9226
URI
https://pubs.kist.re.kr/handle/201004/148605
DOI
10.1039/d3dt03946c
Appears in Collections:
KIST Article > 2024
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