副教授
硕士生导师
性别:男
毕业院校:澳大利亚伍伦贡大学
学历:博士研究生毕业
学位:博士生
在职信息:在职
所在单位:材料科学与工程学院
入职时间:2016-05-30
访问量:
最后更新时间:..
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[1]
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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[2]
窦一川.
High-abundance and low-cost anodes for sodium-ion batteries.
CARBON NEUTRALIZATION,
2024.
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[3]
张一鸣.
Homologous heterostructure of MoS2 and MoO2 coupled with carbon layers as cathode catalyst for rechargeable lithium–oxygen batteries.
Rare Metals,
2024.
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[4]
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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[5]
李娜.
Ti3C2Tx MXene cathode catalyst with efficient decomposition Li2O2 and high-rate cycle stability for Li-O2 batteries.
ELECTROCHIMICA ACTA Journal,
2021.
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[6]
.
Delocalized Electronic Engineering of Ni<sub>5</sub>P<sub>4</sub> Nanoroses for Durable Li-O<sub>2</sub> Batteries.
ADVANCED MATERIALS ,
35,
2023.
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[7]
.
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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[8]
赵兰玲.
High thermoelectric performance of Ag doped SnTe polycrystalline bulks: Via the synergistic manipulation of electrical and thermal transport.
Physical chemistry chemical physics,
21,
17978-17984,
2019.
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[9]
.
Activating MoS2 Nanoflakes via Sulfur Defect Engineering Wrapped on CNTs for Stable and Efficient Li-O2 Batteries.
Advanced Functional Materials,
32,
2022.
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[10]
赵兰玲.
Theoretical study on the electronic structures and transport properties of Ti32-xHfxNi32Sn32-ySby half-Heusler compounds.
PHYSICA B-CONDENSED MATTER,
596,
412385,
2020.
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[11]
陈松.
Rational design of carbon-based electrocatalysts for enhancing redox reactions in rechargeable metal batteries.
NANO RESEARCH,
16,
4246-4276,
2022.
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[12]
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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[13]
.
Bucket effect on high-performance Li-O-2 batteries based on P-doped 3D NiO microspheres with conformal growth of discharge products.
Journal of Materials Chemistry A,
10,
24538-24551,
2022.
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[14]
.
Interfacial Electron Redistribution on Lattice-Matching NiS2/NiSe2 Homologous Heterocages with Dual-Phase Synergy to Tune the Formation Routes of Li2O2.
Advanced Energy Materials,
12,
202202747,
2022.
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[15]
李德元.
Tailoring the d-Band Center over Isomorphism Pyrite Catalyst for Optimized Intrinsic Affinity to Intermediates in Lithium-Oxygen Batteries.
Advanced Energy Materials,
13,
2204057,
2023.
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[16]
张国梁.
2D SnSe Cathode Catalyst Featuring an Efficient Facet-Dependent Selective Li2O2 Growth/Decomposition for Li–Oxygen Batteries.
advanced energy materials,
12,
2022.
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[17]
Li, Deyuan.
CoS2 Nanoparticles Anchored on MoS2 Nanorods As a Superior Bifunctional Electrocatalyst Boosting Li2O2 Heteroepitaxial Growth for Rechargeable Li-O2 Batteries.
small,
18,
e2105752,
2022.
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[18]
Xia, Qing.
Recent advances in heterostructured cathodic electrocatalysts for non-aqueous Li-O-2 batteries.
Chemical Science,
13,
2841,
2022.
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[19]
夏青.
MnCo2S4-CoS1.097 Heterostructure Nanotubes as High Efficiency Cathode Catalysts for Stable and Long-Life Lithium-Oxygen Batteries Under High Current Conditions.
ADVANCED SCIENCE,
8,
2021.
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[20]
李德元.
Activating MoS2 Nanoflakes via Sulfur Defect Engineering Wrapped on CNTs for Stable and Efficient Li-O-2 Batteries.
Advanced functional materials,
32,
2021.
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