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:2015-05-25
访问量:
最后更新时间:..
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[21]
金之栋.
Construction of Pt/Ce-In2O3 hierarchical microspheres for superior triethylamine detection at low temperature.
COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS Journal,
659,
130738,
2023.
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[22]
金之栋.
Fast responding and recovering of NO2 sensors based on Ni-doped In2O3 nanoparticles.
SENSORS AND ACTUATORS B-CHEMICAL,
377,
133058,
2023.
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[23]
.
Surface Ti vacancy passivation of Ti3C2O2 MXene via transition metal atoms as high-performance potassium-ion batteries anodes.
Applied Surface Science,
630,
2023.
-
[24]
陈健超.
Dilute Aqueous Hybrid Electrolyte with Regulated Core-Shell-Solvation Structure Endows Safe and Low-Cost Potassium-Ion Energy Storage Devices.
Advanced functional materials,
33,
2023.
-
[25]
惠晓斌.
In Situ Integrating Highly Ionic Conductive LDH-Array@PVA Gel Electrolyte and MXene/Zn Anode for Dendrite-Free High-Performance Flexible Zn-Air Batteries.
advanced energy materials,
2022.
-
[26]
苗显光.
Interface engineering of inorganic solid-state electrolytes for high-performance lithium metal batteries.
Energy and Environmental Science,
13,
3780,
2020.
-
[27]
赵瑞正.
Highly ordered mesoporous spinel ZnCo2O4 as a high-performance anode material for lithium-ion batteries.
Electrochimica Acta,
2016.
-
[28]
王菲.
Elaboration of Ni2P@C Composites with Hollow Porous Structure for Enhanced Overall Water Splitting.
Advanced Materials Interfaces,
2022.
-
[29]
田康东.
In situ growth of Li4Ti5O12 nanoparticles on Ti3C2Tx MXene for efficient electron transfer as high-rate anode of Li ion battery.
Electrochimica Acta.,
140242,
2022.
-
[30]
田康东.
Superimposed Effect of La Doping and Structural Engineering to Achieve Oxygen-Deficient TiNb2O7 for Ultrafast Li-Ion Storage.
ACS. Appl. Mater. Interfaces,
14,
10478,
2022.
-
[31]
李崇兴.
Designing Lithium Argyrodite Solid-State Electrolytes for High-Performance All-Solid-State Lithium Batteries.
BATTERIES & SUPERCAPS,
5,
2022.
-
[32]
王成祥.
Layered materials for supercapacitors and batteries: Applications and challenges.
PROGRESS IN MATERIALS SCIENCE,
118,
2021.
-
[33]
张芦元.
Reduced Graphene Oxide Wrapped Mesoporous Hierarchical TiO2-CdS as a Photoanode for High-Performance Dye-Sensitized Solar Cells.
European Journal of Inorganic Chemistry,
2281,
2017.
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[34]
王成祥.
MXene for high energy and power density: a perspective.
JOURNAL OF PHYSICS-ENERGY,
2,
2022.
-
[35]
张志薇 , 尹龙卫 and 李群.
Low-Temperature Solution-Based Phosphorization Reaction Route to Sn 4 P 3 /Reduced Graphene Oxide Nanohybrids as Anodes for Sodium Ion Batteries.
先进能源材料,
6,
1600376,
2016.
-
[36]
赵瑞正.
Self-assembled Ti3C2 MXene and N-rich porous carbon hybrids as superior anodes for high-performance potassium-ion batteries.
能源环境科学,
2020.
-
[37]
李彩霞.
CNTs/MOFs-derived carbon/Al2(OH)2.76F3.24/S cathodes for high-performance lithium-sulfur batteries.
能源存储材料,
2017.
-
[38]
赵瑞正.
Molecular-Level Heterostructures Assembled from Titanium Carbide MXene and Ni-Co-Al Layered Double-Hydroxide Nanosheets for All-Solid-State Flexible Asymmetric High-Energy Supercapacitors.
ACS ENERGY LETTERS,
3,
132,
2018.
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[39]
Kazuaki Matsuba.
Neat monolayer tiling of molecularly thin two-dimensional materials in 1 min.
Science Advances,
3,
2017.
-
[40]
惠晓斌.
Low-Temperature Reduction Strategy Synthesized Si/Ti3C2 MXene Composite Anodes for High-Performance Li-Ion Batteries.
Advanced Energy Materials,
9,
2019.
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