Jiangping Tu
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Explore the profile of Jiangping Tu including associated specialties, affiliations and a list of published articles.
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Articles
104
Citations
623
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Recent Articles
1.
Su H, Hu Y, Wang M, Zhong Y, Zhu J, Kuang J, et al.
Adv Mater
. 2025 Mar;
:e2500673.
PMID: 40045638
Li intrusion is the primary factor contributing to the undesirable cycling durability and rate capability of all-solid-state lithium metal batteries. However, conventional engineering methodologies for solid electrolytes (SEs) that focus...
2.
Zheng Y, Zhang L, Zheng H, Chen J, Chen Z, Liu Y, et al.
J Colloid Interface Sci
. 2025 Jan;
685:65-72.
PMID: 39832467
The application and further industrialization of magnesium hydride (MgH) are restricted by its intrinsically high de-hydrogenation temperature and dragged kinetics though it is believed as one of the most encouraging...
3.
Xian B, Shen S, Yang T, Qiu Z, Zhang Y, Cao F, et al.
ACS Nano
. 2024 Sep;
18(40):27451-27464.
PMID: 39313355
Flexible batteries with large energy densities, lightweight nature, and high mechanical strength are considered as an eager goal for portable electronics. Herein, we first propose free-standing graphene fiber electrodes containing...
4.
Li X, Li Z, Guo Z, Zhang C, Xu X, Tu J, et al.
ACS Appl Mater Interfaces
. 2024 Jul;
16(28):36901-36910.
PMID: 38978409
Gel electrolytes have attracted extensive attention in flexible batteries. However, the traditional hydrogel electrolyte is not enough to solve the fundamental problems of zinc anodes, such as dendrite growth, side...
5.
Liu P, Shen S, Qiu Z, Yang T, Liu Y, Su H, et al.
Adv Mater
. 2024 Jun;
36(30):e2312812.
PMID: 38839075
High-performance lithium metal anodes are crucial for the development of advanced Li metal batteries. Herein, this work reports a novel plasma coupled electrolyte additive strategy to prepare high-quality composite solid...
6.
Su H, Li J, Zhong Y, Liu Y, Gao X, Kuang J, et al.
Nat Commun
. 2024 May;
15(1):4202.
PMID: 38760354
Sulfides are promising electrolyte materials for all-solid-state Li metal batteries due to their high ionic conductivity and machinability. However, compatibility issues at the negative electrode/sulfide electrolyte interface hinder their practical...
7.
Shan X, Zhu J, Qiu Z, Liu P, Zhong Y, Xu X, et al.
Small
. 2024 May;
20(35):e2401491.
PMID: 38751305
The design and fabrication of a lithiophilic skeleton are highly important for constructing advanced Li metal anodes. In this work, a new lithiophilic skeleton is reported by planting metal sulfides...
8.
Su H, Zhong Y, Wang C, Liu Y, Hu Y, Li J, et al.
Nat Commun
. 2024 Mar;
15(1):2552.
PMID: 38514649
Sulfide electrolytes represent a crucial category of superionic conductors for all-solid-state lithium metal batteries. Among sulfide electrolytes, glassy sulfide is highly promising due to its long-range disorder and grain-boundary-free nature....
9.
Zhang S, Zhao F, Su H, Zhong Y, Liang J, Chen J, et al.
Angew Chem Int Ed Engl
. 2024 Jan;
63(12):e202316360.
PMID: 38243690
Halide solid electrolytes (SEs) have attracted significant attention due to their competitive ionic conductivity and good electrochemical stability. Among typical halide SEs (chlorides, bromides, and iodides), substantial efforts have been...
10.
Xian C, Zhang S, Liu P, Huang L, He X, Shen S, et al.
Small
. 2023 Nov;
20(15):e2306381.
PMID: 38013253
All-solid-state lithium metal batteries (LMBs) are regarded as one of the most viable energy storage devices and their comprehensive properties are mainly controlled by solid electrolytes and interface compatibility. This...