Xiaofan Du
Overview
Explore the profile of Xiaofan Du including associated specialties, affiliations and a list of published articles.
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Articles
45
Citations
262
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Recent Articles
1.
Zhang Z, Li G, Du X, Huang L, Kang G, Zhang J, et al.
Adv Sci (Weinh)
. 2024 Oct;
11(48):e2409628.
PMID: 39470154
Safety concerns and uncontrollable dendrite growths have severely impeded the advancement of lithium-metal batteries. Herein, a safe deep-eutectic-polymer electrolyte with built-in thermal shutdown capability is proposed by utilizing hydrophobic association...
2.
Huang Q, Zhao Q, Zhang B, Du X, Liu D, Ji H, et al.
ACS Appl Mater Interfaces
. 2024 May;
16(20):26460-26467.
PMID: 38713066
Owing to the ionic bond nature of the Pb-I bond, the iodide at the interface of perovskite polycrystalline films was easily lost during the preparation process, resulting in the formation...
3.
Ye L, Ding Y, Niu X, Xu X, Fan K, Wen Y, et al.
J Colloid Interface Sci
. 2024 Mar;
665:240-251.
PMID: 38531271
Seawater electrolysis to generate hydrogen offers a clean, green, and sustainable solution for new energy. However, the catalytic activity and durability of anodic catalysts are plagued by the corrosion and...
4.
Liu T, Wu H, Wang H, Jiao Y, Du X, Wang J, et al.
Nanomicro Lett
. 2024 Mar;
16(1):144.
PMID: 38436767
Aqueous sodium-ion batteries are known for poor rechargeability because of the competitive water decomposition reactions and the high electrode solubility. Improvements have been reported by salt-concentrated and organic-hybridized electrolyte designs,...
5.
Bai T, Li X, Zhang H, Yang W, Lv C, Du X, et al.
Environ Res
. 2024 Feb;
251(Pt 1):118580.
PMID: 38423496
Background And Aims: Exposure to brominated flame retardants (BFRs) has been widely confirmed to impair the normal functioning of the human body system. However, there is a paucity of study...
6.
Du X, Zhao M, Jiang L, Pang L, Wang J, Lv Y, et al.
Drug Deliv
. 2024 Jan;
31(1):2306231.
PMID: 38245895
Nanosecond pulsed laser induced photoporation has gained increasing attention from scholars as an effective method for delivering the membrane-impermeable extracellular materials into living cells. Compared with femtosecond laser, nanosecond laser...
7.
Transforming a Primary Li-SOCl Battery into a High-Power Rechargeable System via Molecular Catalysis
Chen G, Li W, Du X, Wang C, Qu X, Gao X, et al.
J Am Chem Soc
. 2023 Oct;
145(40):22158-22167.
PMID: 37779473
Li-SOCl batteries possess ultrahigh energy densities and superior safety features at a wide range of operating temperatures. However, the Li-SOCl battery system suffers from poor reversibility due to the sluggish...
8.
Liu T, Du X, Wu H, Ren Y, Wang J, Wang H, et al.
Angew Chem Int Ed Engl
. 2023 Sep;
62(43):e202311589.
PMID: 37669903
Hydrogel electrolytes hold great promise in developing flexible and safe batteries, but the presence of free solvent water makes battery chemistries constrained by H evolution and electrode dissolution. Although maximizing...
9.
Du X, Fu L, Wang Z, Zhang Z, Jiang S, Wang J, et al.
J Biomed Opt
. 2023 Jul;
28(6):065006.
PMID: 37396684
Significance: Resealing time based loading efficiency of optoporation is the key parameter for drug or gene delivery. This work describes a comparatively simple optical approach to directly measure the cell...
10.
Min X, Han C, Zhang S, Ma J, Hu N, Li J, et al.
Angew Chem Int Ed Engl
. 2023 Jun;
62(34):e202302664.
PMID: 37349889
Lithium difluoro(oxalato) borate (LiDFOB) has been widely investigated in lithium-ion batteries (LIBs) owing to its advantageous thermal stability and excellent aluminum passivation property. However, LiDFOB tends to suffer from severe...