Li-Zhen Fan
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Explore the profile of Li-Zhen Fan including associated specialties, affiliations and a list of published articles.
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Articles
32
Citations
159
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Recent Articles
1.
Wang Q, Bai N, Xin Y, Fan X, Zhang D, Li Z, et al.
J Colloid Interface Sci
. 2025 Feb;
687:552-560.
PMID: 39978260
LiCoO (LCO) is a prominent high-voltage cathode material due to its exceptional energy density and impressive theoretical specific capacity of 274 mAh g. However, challenges such as irreversible structural phase...
2.
Wang C, Li W, Li D, Zhao X, Li Y, Zhang Y, et al.
ACS Nano
. 2024 Nov;
18(46):32175-32185.
PMID: 39511944
The integrated approach of interfacial engineering and composite electrolytes is crucial for the market application of Li metal batteries (LMBs). A 22 μm thin-film type polymer/LiLaZrTaO (LLZTO) composite solid-state electrolyte...
3.
Zhang W, Dou Y, Yang F, He Z, Yang Y, Fan L, et al.
Zhongguo Gu Shang
. 2024 Sep;
37(9):893-8.
PMID: 39342473
Objective: To explore medium and long term efficacy of oblique lateral interbody fusion (OLIF) in treating lumbar specific infection. Methods: From October 2017 to January 2021, 24 patients with lumbar...
4.
Ding D, Ma H, Tao H, Yang X, Fan L
Chem Sci
. 2024 Mar;
15(10):3730-3740.
PMID: 38454996
LiAlTi(PO) (LATP) has attracted much attention due to its high ionic conductivity, good air stability and low cost. However, the practical application of LATP in all-solid-state lithium batteries faces serious...
5.
Wang C, Zhao X, Li D, Yan C, Zhang Q, Fan L
Angew Chem Int Ed Engl
. 2024 Feb;
63(19):e202317856.
PMID: 38389190
In solid-state lithium metal batteries (SSLMBs), the inhomogeneous electrolyte-electrode interphase layer aggravates the interfacial stability, leading to discontinuous interfacial ion/charge transport and continuous degradation of the electrolyte. Herein, we constructed...
6.
Liang Y, Shen C, Liu H, Wang C, Li D, Zhao X, et al.
Adv Sci (Weinh)
. 2023 Apr;
10(19):e2300985.
PMID: 37083269
Utilization of lithium (Li) metal anodes in all-solid-state batteries employing sulfide solid electrolytes is hindered by diffusion-related dendrite growth at high rates of charge. Engineering ex-situ Li-intermetallic interlayers derived from...
7.
Wang C, Lu J, Wang A, Zhang H, Wang W, Jin Z, et al.
Nanomaterials (Basel)
. 2022 Oct;
12(20).
PMID: 36296742
The shuttling effect of soluble lithium polysulfides (LiPSs) and the sluggish conversion kinetics of polysulfides into insoluble LiS/LiS severely hinders the practical application of Li-S batteries. Advanced catalysts can capture...
8.
Liu H, Liang Y, Wang C, Li D, Yan X, Nan C, et al.
Adv Mater
. 2022 Aug;
35(50):e2206013.
PMID: 35984755
All-solid-state lithium batteries (ASSLBs) employing sulfide solid electrolytes (SEs) promise sustainable energy storage systems with energy-dense integration and critical intrinsic safety, yet they still require cost-effective manufacturing and the integration...
9.
Zhao X, Zhou D, Chen M, Yang J, Fan L
RSC Adv
. 2022 May;
10(72):44611-44623.
PMID: 35517175
Potassium-ion batteries (KIBs) are currently being investigated as a potential alternative to lithium-ion batteries (LIBs) because of the natural abundance of K resources. Presently, it is crucial yet challenging to...
10.
Liu X, Zhao X, Fan L
RSC Adv
. 2022 Apr;
11(18):10874-10880.
PMID: 35423600
The growing demand for sustainable energy has led to in-depth research on hydrogen production from electrolyzed water, where the development of electrocatalysts is a top priority. We here report a...