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High-energy P2-type Na-layered oxide cathode with sequentially occurred anionic redox and suppressed phase transition

Lee, Sangyeop ; Kang, Jungmin ; Cho, Min-kyung ; [et al.]

AIP Publishing ; 2022

In: Applied Physics Reviews Vol. 9, No. 4 ( 2022-12-01)

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In: Applied Physics Reviews, AIP Publishing, Vol. 9, No. 4 ( 2022-12-01)

Abstract: Although anionic-redox-based layered oxide materials have attracted great attention as promising cathodes for Na-ion batteries because of their high practical capacities, they suffer from undesirable structural degradation, resulting in the poor electrochemical behavior. Moreover, the occurrence of stable anionic-redox reaction without the use of expensive elements such as Li, Co, and Ni is considered one of the most important issues for high-energy and low-cost Na-ion batteries. Herein, using first-principles calculation and various experimental techniques, we investigate the combination of vacancy (□) and Ti4+ cations in the transition-metal sites to enable outstanding anionic-redox-based electrochemical performance in the Na-ion battery system. The presence of vacancies in the P2-type Na0.56[Ti0.1Mn0.76□0.14]O2 structure suppresses the large structural change such as the P2–OP4 phase transition, and Ti4+ cations in the structure result in selectively oxidized oxygen ions with structural stabilization during Na+ deintercalation in the high-voltage region. The high structural stability of P2-type Na0.56[Ti0.1Mn0.76□0.14] O2 enables not only the high specific capacity of 224.92 mAh g−1 at 13 mA g−1 (1C = 264.1 mA g−1) with an average potential of ∼2.62 V (vs Na+/Na) but also excellent cycle performance with a capacity retention of ∼80.38% after 200 cycles at 52 mA g−1 with high coulombic efficiencies above 99%. Although there are some issues such as low Na contents in the as-prepared state, these findings suggest potential strategies to stabilize the anionic-redox reaction and structure in layered-oxide cathodes for high-energy and low-cost Na-ion batteries.

Type of Medium: Online Resource

ISSN: 1931-9401

URL: Article

DOI: 10.1063/5.0100108

Language: English

Publisher: AIP Publishing

Publication Date: 2022

detail.hit.zdb_id: 2265524-4

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The curious temperature dependence of fluoride molten salt thermal conductivity

Robertson, Sean G. ; Wiser, Ralph ; Yang, Wonseok ; [et al.]

AIP Publishing ; 2022

In: Journal of Applied Physics Vol. 131, No. 22 ( 2022-06-14)

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In: Journal of Applied Physics, AIP Publishing, Vol. 131, No. 22 ( 2022-06-14)

Abstract: To optimize the efficiency and safety of molten salt-based energy applications, accurate molten salt thermophysical property data are required. For molten fluorides, existing thermal conductivity results have large uncertainties and contradict the current theory by eliciting a positive temperature coefficient. Transient grating spectroscopy (TGS), a technique previously deemed reliable by the theoretical community, has been used to measure the thermal conductivity of fluorides (FLiNaK) for the first time. Results show a fairly flat but slightly increasing thermal conductivity as a function of temperature. The technique has been shown to not suffer from contributions from convection and radiation, an explanation used to discount the results of alternative experimental techniques. In addition to thermal conductivity, sound speed data as a function of temperature have also been obtained for the first time in FLiNaK. The use of accurate sound speed data in theoretical models of thermal conductivity provides better but not complete agreement with the results from TGS. The continued existence of a positive temperature coefficient highlights the need for new mechanistic proposals for why TGS, or current theoretical models, are unable to capture the correct temperature dependence for fluoride molten salt thermal conductivity.

Type of Medium: Online Resource

ISSN: 0021-8979 , 1089-7550

URL: Article

DOI: 10.1063/5.0088059

Language: English

Publisher: AIP Publishing

Publication Date: 2022

detail.hit.zdb_id: 220641-9

detail.hit.zdb_id: 3112-4

detail.hit.zdb_id: 1476463-5

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