University of Electronic Science and Technology of China
中文
Home
Scientific Research
Research Projects
Published Books
Patents
Paper Publications
Research Field
Teaching Research
Teaching Achievement
Teaching Information
Teaching Resources
Awards and Honours
Enrollment Information
Student Information
My Album
Blog
Fang Louis
Personal information
Associate Professor
Name (Simplified Chinese):
方梓烜
Name (English):
Fang Louis
Name (Pinyin):
Fang Zixuan
E-Mail:
zixuanfang@uestc.edu.cn
Date of Employment:
2022-08-30
Education Level:
With Certificate of Graduation for Doctorate Study
Gender:
Male
Degree:
Doctor of Engineering
Status:
Professor
Discipline:
Materials Science and Engineering
More +
Current position:
Home
>>
Scientific Research
>>
Paper Publications
[1] Bandgap-Preserving Co-Doping Strategy for NASICON Electrolytes with Concurrent Optimization of Ionic and Electronic Transport,
Energy Storage Materials
, vol. 81, Aug 2025.
[2] Advancing NASICON-type materials through high-entropy strategy: Synthesis and applications,
Journal of Advanced Ceramics
, vol. 14, no. 5,
[3] Construction of weakly solvating solid polymer electrolytes for high-voltage and stable lithium metal batteries,
Journal of Colloid and Interface Science
, vol. 694, no. 15,
[4] Metal-ligand coordination induced rapid Li+ transport kinetics through bidirectional anchoring strategy,
Journal of Colloid and Interface Science
, vol. 694, no. 15, pp. 137731,
[5] Mechano-Electrical Buffer Layer at Grain Boundary Induced Solid State Electrolyte with Ultra-High Mechanical Strength and Electrical Insulation for Stable Lithium Metal Batteries,
Energy Storage Materials
,
[6] In Situ Constructing Robust Interface by Deep Eutectic Polymeric Electrolyte Enables High Performance Lithium Metal Batteries with High-Loading Cathode,
ADVANCED SCIENCE
, vol. 11, no. 47,
[7] Lewis acid fluorine-donating additive enables an excellent semi-solid-state electrolyte for ultra-stable lithium metal batteries,
NANO ENERGY
, vol. 115,
[8] Interfacial Plasticization Strategy Enabling a Long-Cycle-Life Solid-State Lithium Metal Battery,
SMALL
, vol. 20, no. 14,
[9] Surface modification of garnet fillers with a polymeric sacrificial agent enables compatible interfaces of composite solid-state electrolytes,
Chemical Science
, vol. 14,
[10] Ionogel electrolyte with dynamic metal-ligand interactions enabled self-healable supercapacitor with high energy density,
Energy Storage Materials
, vol. 57,
[11] Composite polymer electrolyte incorporating WO3 nanofillers with enhanced performance for dendrite-free solid-state lithium battery,
CERAMICS INTERNATIONAL
, vol. 49, no. 3, pp. 4473-4481,
[12] Gradient fluorinated and hierarchical selective adsorption coating for Zn-Based aqueous battery,
JOURNAL OF COLLOID AND INTERFACE SCIENCE
, vol. 651, pp. 968-975,
[13] Energy band modulation of Li 2 O-rGO core - shell as cathode sacrificial additive enables capacity enhancement of hard carbon anode in Li-ion batteries,
JOURNAL OF COLLOID AND INTERFACE SCIENCE
, vol. 667, pp. 688-699,
[14] The dielectric response of a novel low-loss oxyfluoride Li<sub>0.5</sub>NaY<sub>9</sub>(SiO<sub>4</sub>)<sub>6</sub>O<sub>2</sub>F<sub>0.5</sub> ceramic from Gigahertz band to Terahertz band,
CERAMICS INTERNATIONAL
, vol. 50, no. 21, pp. 43513-43521,
[15] Aliovalent dual element co-assisted strategy to enhance ionic conductivity and stability of NASICON-type solid electrolyte for all-solid-state sodium batteries,
CERAMICS INTERNATIONAL
, vol. 49, no. 20, pp. 32903-32912,
[16] Chemically Modulating the Twist Rate of Helical van der Waals Crystals,
Chemistry of Materials
, vol. 32, no. 1,
[17] Controllable Edge Epitaxy of Helical GeSe/GeS Heterostructures,
NANO LETTERS
,
[18] Continuously tunable valleytronics with symmetry-retaining high polarization degree in SnSxSe1-x model system,
Applied Physics Letters
, vol. 116, no. 6,
[19] Helical van der Waals crystals with discretized Eshelby twist,
Nature
, vol. 570, pp. 358–362,
total19 1/1
first
previous
next
last
