教授
性别:男
在职信息:在职
所在单位:材料科学与工程学院
入职时间:2012-10-26
访问量:
最后更新时间:..
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[1]
Zaixin Wei.
Negative Correlation Between Thermal and Electrical Conductivity in Epsilon-Negative Nanocomposites.
Advanced Electronic Materials,
2024.
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[2]
Yunpeng Qu.
Lignin-Derived Lightweight Carbon Aerogels for Tunable Epsilon-Negative Response.
Advanced Science,
2024.
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[3]
Xiaoting Song.
The simultaneously achieved high permittivity and low loss in tri-layer composites via introducing negative permittivity layer.
Composites Part A: Applied Science and Manufacturing,
2024.
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[4]
Yunpeng Qu.
Universal paradigm of ternary metacomposites with tunable epsilon-negative and epsilon-near-zero response for perfect electromagnetic shielding.
RARE METALS Journal,
2024.
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[5]
Xiaoting Song.
MOF-derived ZrO2/C- polyvinylidene fluoride composite towards negative permittivity regulation mechanism.
JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY,
2024.
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[6]
Xiaoting Song.
The realization of high permittivity and low loss via building various spatial structure composites with positive and negative permittivity layers.
Journal of Materials Research and Technology,
2024.
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[7]
Zaixin Wei.
Experimental observation of purely resistive effect in epsilon-near-zero transition metal perovskite.
Acta Materialia,
2024.
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[8]
Xiaoping Zhang.
Decoration of conjugated polyacene quinone radical (PAQR) with Fe3O4 nanospheres achieving improved impedance matching and electromagnetic wave absorption.
MATERIALS TODAY PHYSICS,
2024.
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[9]
Guangyue Shi.
Percolation-Triggered Negative Permittivity in Nano Carbon Powder/Polyvinylidene Fluoride Composites.
MOLECULES,
2024.
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[10]
Yunpeng Qu.
Three-Dimensional random network of metacomposites by synergizing Multi-Walled carbon Nanotube-Carbon black for tunable Epsilon-Negative and Epsilon-Near-Zero responses.
Composites Part A: Applied Science and Manufacturing,
2024.
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[11]
Qu, Yun-Peng.
Universal paradigm of ternary metacomposites with tunable epsilon-negative and epsilon-near-zero response for perfect electromagnetic shielding.
Rare Metals,
43,
796-809,
2024.
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[12]
Zelong Chang.
Achieving Significantly Boosted Dielectric Energy Density of Polymer Film via Introducing a Bumpy Gold/Polymethylsilsesquioxane Granular Blocking Layer.
small,
2024.
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[13]
窦一川.
High-abundance and low-cost anodes for sodium-ion batteries.
CARBON NEUTRALIZATION,
2024.
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[14]
李业冰.
Li-O2电池过渡金属硫族化合物催化剂最新研究进展.
铜业工程,
129-147,
2024.
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[15]
.
Optimizing E<sub>g</sub> Orbital Occupancy of Transition Metal Sulfides by Building Internal Electric Fields to Adjust the Adsorption of Oxygenated Intermediates for Li-O<sub>2</sub> Batteries.
Small,
2023.
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[16]
田焕荣.
Low-permittivity LiLn(PO3)4 (Ln = La, Sm, Eu) dielectric ceramics for microwave/millimeter-wave communication.
Journal of Advanced Ceramics,
2024.
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[17]
田焕荣.
Design of broadband metamaterial absorber utilized by flower-shaped unit loaded with lumped-resistor.
EPJ Applied Metamaterials,
11,
2024.
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[18]
周亚.
Hierarchical heterostructure Ni2P hollow carbon spheres derived from MOFs for efficient electromagnetic wave absorption.
JOURNAL OF ALLOYS AND COMPOUNDS ,
2024.
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[19]
刘子璇.
Fe@Fe3C Core-Shell Nanoparticles Embedded in Polyvinyl Alcohol-Derived Porous Carbon toward Light and High-Performance Microwave Absorption.
ECS JOURNAL OF SOLID STATE SCIENCE AND TECHNOLOGY,
11,
2022.
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[20]
龙宇欣.
Coupling MoSe2 with Non-Stoichiometry Ni0.85 Se in Carbon Hollow Nanoflowers for Efficient Electrocatalytic Synergistic Effect on Li-O2 Batteries.
small,
2023.
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