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西北工业大学 国内
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科研成果
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杜 乘风
Professor
材料学院
h-index
5365
引用
39
H-指数
根据储存在 Pure 的刊物以及来自 Scopus 的引用文献数量计算
2013
2025
每年的科研成果
综述
指纹
网络
科研成果
(113)
相似简介
(6)
指纹
深入其中 Chengfeng Du 为活跃的研究主题。这些主题标签来自此人的成果。它们共同形成唯一的指纹。
分类
加权
按字母排序
Material Science
MXene
100%
Cathode
89%
Nanosheet
74%
Oxide Compound
68%
Composite Material
65%
Density
61%
Sodium Ion
52%
Surface (Surface Science)
46%
Water Splitting
42%
Nanoparticle
42%
Oxygen Evolution
42%
Ionic Liquid
42%
Anode
42%
Heterojunction
41%
Solid Solution
40%
Thermoelectrics
40%
Diffusivity
39%
Electrocatalyst
39%
Titanium Carbide
36%
Sodium Ion Battery
35%
Nanocomposite
34%
Coefficient of Friction
32%
Lithium Ion Battery
31%
Hydrogen Evolution
30%
Tribological Performance
30%
Boride
28%
Cathode Material
25%
Surface Modification
23%
Energy Density
23%
Electrocatalysis
23%
Nanodots
23%
Lithium
22%
Vanadium
22%
MAX Phases
22%
Carrier Concentration
21%
Lubrication
21%
Silicon Nitride
20%
Thermal Conductivity
18%
Nanohybrid
18%
Metal-Organic Framework
18%
Graphene
18%
Sodium
17%
Anode Material
17%
Supercapacitors
16%
Reduced Graphene Oxide
16%
Zinc Ion
15%
Zinc Ion Battery
15%
Nanostructure
15%
Transition Metal
14%
X Ray Diffraction Analysis
14%
Chemistry
Doping
15%
Sodium Ion
13%
Diethylenetriamine
10%
Nanosheet
10%
Hydrogen
10%
Transition Metal
10%
formation
9%
Electrocatalyst
8%
Electrocatalysis
8%
Density Functional Theory
8%
Nanomaterial
8%
Titanium-based MXene
8%
Magnesium
6%
Propylamine
6%
Methanol
6%
Nanocage
6%
Photocatalytic
6%
Secondary Battery
6%
Luminescence Quenching
6%
Surface Modification
6%
Nanocomposite
6%
Alkaline Condition
6%
Acidic Condition
6%
Energy Storage
6%
Diffusivity
6%
Crystal Violet
6%
Hybrid Organic-Inorganic Material
6%
Chemisorption
6%
K
6%
Micro Porosity
6%
Visible Spectrum
6%
Photocatalytic Activity
6%
Rubidium Ion
6%
Boride
6%
Ionic Liquid
6%
Imidazolium Cation
6%
Transition Metal Carbide
6%
Mixed Valence
6%
Nitride
6%
Solid Solution
6%
Metal Organic Framework
5%
Engineering
MXene
20%
Solid Solution
16%
Thermoelectricity
13%
Wear Resistance
10%
Flux Density
10%
Solid Lubricant
8%
Coefficient of Friction
8%
Carrier Concentration
8%
Water Splitting
8%
Spark Plasma Sintering
6%
Engineering
6%
High-Entropy Alloys
6%
Operating Temperature
6%
Mo Content
6%
Oxide Scale
6%
Electrochemical Capacitor
6%
Overall Water Splitting
6%
Oxygen Evolution Reaction
6%
Acidic Condition
6%
Alkaline Condition
6%
Tribological Performance
6%
Fracture Strength
6%
Temperature Condition
6%
Resistant Material
6%
Iron
6%
Diffusivity
6%
Corrosion Resistance
6%
Nanorod
6%
Antiwear
6%
Energy Barrier
5%
