Yongyao Xia
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Explore the profile of Yongyao Xia including associated specialties, affiliations and a list of published articles.
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125
Citations
966
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Recent Articles
1.
Zhang F, Zhang X, Shu Y, Xiao H, Wang Q, Guo Q, et al.
Angew Chem Int Ed Engl
. 2025 Feb;
:e202425419.
PMID: 39985213
Sn electrode possesses high reversibility, redox kinetics and corrosion resistance, as well as non-toxic and environmental compatibility, which is competitive candidate for aqueous batteries. However, due to huge size of...
2.
Chen S, Wu G, Jiang H, Wang J, Chen T, Han C, et al.
Nature
. 2025 Feb;
638(8051):676-683.
PMID: 39939772
Lithium (Li) ions are central to the energy storing functionality of rechargeable batteries. Present technology relies on sophisticated Li-inclusive electrode materials to provide Li ions and exactingly protect them to...
3.
Guo Y, Wu D, Sun Z, Ning F, Zhu K, Liu X, et al.
J Phys Chem Lett
. 2025 Jan;
16(6):1415-1423.
PMID: 39884971
The migration of Zn ions is significantly more challenging compared to that of Li ions within the same crystalline framework, leading to poor rate performance of zinc-ion batteries (ZIBs). Compared...
4.
Du Y, Wang Y, Yang B, Liu X, Li C, Li W, et al.
Nano Lett
. 2025 Jan;
25(3):1002-1009.
PMID: 39803922
Vanadium-based oxides have garnered significant attention for aqueous zinc batteries (AZBs), whereas sluggish Zn diffusion and structural collapse remain major challenges in achieving high-performance cathodes. Herein, different structures of iron-vanadium...
5.
Zhou X, Chang C, Yu D, Zhang K, Li Z, Jiang S, et al.
Nat Commun
. 2025 Jan;
16(1):112.
PMID: 39747862
The application of high-voltage positive electrode materials in sulfide all-solid-state lithium batteries is hindered by the limited oxidation potential of sulfide-based solid-state electrolytes (SSEs). Consequently, surface coating on positive electrode...
6.
Wang Q, Zhang F, Shu Y, Xiao H, Zhang X, Ma X, et al.
Angew Chem Int Ed Engl
. 2024 Dec;
64(7):e202418928.
PMID: 39714330
Sn redox chemistry in aqueous acidic electrolyte was characterized with high reversibility and kinetics, which is considered as competitive anode material for aqueous batteries. Unfortunately, divalent Sn is unstable in...
7.
Zheng T, Xu T, Xiong J, Xie W, Wu M, Yu Y, et al.
Adv Sci (Weinh)
. 2024 Oct;
11(48):e2410329.
PMID: 39476846
In this study, a novel concept of multipoint anionic bridge (MAB) is proposed and proved, which utilizes anions with different sites to connect with the asymmetric solvation structure (ASS). Compared...
8.
Wu K, Liu X, Ning F, Subhan S, Xie Y, Lu S, et al.
ChemSusChem
. 2024 Jul;
18(1):e202401251.
PMID: 39046757
The aqueous zinc ion battery emerges as the promising candidate applied in large-scale energy storage system. However, Zn anode suffers from the issues including Zn dendrite, Hydrogen evolution reaction and...
9.
Li L, Xie Y, Yao M, Cao R, Mai X, Ji Y, et al.
Chem Commun (Camb)
. 2024 Jun;
60(53):6809-6812.
PMID: 38872605
A dual-additive-based aqueous electrolyte was designed with a pH-buffering additive (Zn(OAc)) and an electrostatic shielding additive (TMAOAc) for high Zn plating/stripping efficiency. The buffering pair, OAc/HOAc, can stabilize the pH...
10.
Choi S, Feng W, Xia Y
ACS Omega
. 2024 May;
9(17):18688-18708.
PMID: 38708231
High voltage spinel LiMnNiO (LMNO) is a promising energy storage material for the next generation lithium batteries with high energy densities. However, due to the major controversies in synthesis, structure,...