Yongsheng Fu
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Explore the profile of Yongsheng Fu including associated specialties, affiliations and a list of published articles.
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Articles
64
Citations
157
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Recent Articles
1.
Zhou Y, Liang Y, Wu Z, Wang X, Guan R, Li C, et al.
Small
. 2025 Feb;
:e2411941.
PMID: 40018813
With the expanding adoption of large-scale energy storage systems and electrical devices, batteries and supercapacitors are encountering growing demands and challenges related to their energy storage capability. Amorphous/crystalline heterostructured nanomaterials...
2.
Zhu B, Tang J, Yao Z, Cui J, Hou Y, Chen J, et al.
Chem Bio Eng
. 2025 Feb;
1(5):381-413.
PMID: 39975799
Aqueous zinc ion batteries (AZIBs) have emerged as promising candidates for large-scale energy storage systems during post lithium-ion era, drawing attention for their environmental-friendliness, cost-effectiveness, high safety, and minimal manufacturing...
3.
Sun F, Wu Q, Fu Y, Zheng L, Zheng K, Yang M, et al.
J Colloid Interface Sci
. 2024 Dec;
681:392-403.
PMID: 39616889
Epoxy resin (EP) based composite materials, due to their advantages such as light weight, ease of processing, and mechanical properties, have been widely applied across thermal packaging field. However, the...
4.
Liu Y, Zhou R, Tang Y, Li X, Xu L, Fu Y
Sci Rep
. 2024 Nov;
14(1):29686.
PMID: 39613929
In this work, it was found that the presence of nitrilotriacetic acid (NTA) could enhance the elimination of sulfamethoxazole (SMX) significantly in Mn(II)/peracetic acid (PAA) process. NTA firstly complexed with...
5.
Liu S, Guo T, Jiang J, Qi Z, Zhang Y, Guo X, et al.
Small
. 2024 Nov;
:e2407116.
PMID: 39588875
Sluggish conversion kinetics of polysulfides during discharge and the severe shuttle effect significantly hinder the practical application of lithium-sulfur (Li-S) batteries. In this work, the lattice engineering strategy of Fe...
6.
Pan S, Wei L, Xie J, Lu Z, Yuan J, Tang T, et al.
Chem Commun (Camb)
. 2024 Nov;
60(99):14842-14845.
PMID: 39585168
The SrRuO films were grown on SrTiO using a lattice matching strategy. Scanning electrochemical microscopy imaged local oxygen evolution reaction (OER) performance, exploring the relationship between micro-area activity and the...
7.
Wu Z, Liu M, He W, Guo T, Tong W, Kan E, et al.
Nat Commun
. 2024 Nov;
15(1):9535.
PMID: 39496586
Electrocatalysts are extensively employed to suppress the shuttling effect in lithium-sulfur (Li-S) batteries. However, it remains challenging to probe the sulfur redox reactions and mechanism at the electrocatalyst/LiPS interface after...
8.
Wu Z, He W, Xie R, Xiong X, Wang Z, Zhou L, et al.
Molecules
. 2024 Oct;
29(20).
PMID: 39459336
Lithium-sulfur (Li-S) batteries offer a high theoretical energy density but suffer from poor cycling stability and polysulfide shuttling, which limits their practical application. To address these challenges, we developed a...
9.
Liu M, Wu Z, Liu S, Guo T, Chen P, Cao X, et al.
Angew Chem Int Ed Engl
. 2024 Sep;
64(2):e202417624.
PMID: 39345165
Regulating the transformation of sulfur species is the key to improving the electrochemical performance of lithium-sulfur (Li-S) batteries, in particular, to accelerate the reversible conversion between solid phase LiS and...
10.
Wang Z, Zhu H, Jiang J, Dong M, Meng F, Ke J, et al.
Angew Chem Int Ed Engl
. 2024 Jul;
63(42):e202410823.
PMID: 39034916
Improving the slow redox kinetics of sulfur species and shuttling issues of soluble intermediates induced from the multiphase sulfur redox reactions are crucial factors for developing the next-generation high-energy-density lithium-sulfur...