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南京工业大学 国内
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黄 亨明
副教授
材料科学与工程学院
电子邮件
h.huang
njtech.edu
cn
网站
https://cly.njtech.edu.cn/info/1039/7968.htm
h-index
2161
引用
18
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
2012
2025
每年的科研成果
综述
指纹
网络
科研成果
(40)
相似简介
(6)
指纹
深入其中 Hengming Huang 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
Cadmium
11%
Capacitor
11%
Carbon Dioxide
20%
Carbon Nitride
11%
Carbon-Based Material
11%
Cathode Material
11%
Composite Films
23%
Composite Material
30%
Copolymer
11%
Copolymerization
13%
Crystal Structure
15%
Density
25%
Ferroelectric Material
14%
Field Emission Scanning Electron Microscopy
17%
Film
48%
Fossil Fuel
11%
Graphitic Carbon Nitride
52%
Halide
11%
Hydrogen Evolution
29%
Laser Diode
17%
Luminescence
35%
Materials Design
11%
MXene
11%
Nanocomposite
20%
Nanoparticle
46%
Nanorod
11%
Nanosheet
38%
Optical Power
11%
Organic Solvents
17%
Oxidation Reaction
18%
Oxygen Evolution
11%
Oxygen Vacancy
20%
Photocatalysis
57%
Photocatalysts
100%
Photocatalytic H2 Evolution
23%
Photoluminescence
23%
Photovoltaics
11%
Piezoelectricity
41%
Secondary Battery
11%
Shape Memory Polymer
11%
Sodium Ion
11%
Solid Solution
11%
Surface (Surface Science)
52%
Thin Films
11%
Titanium Dioxide
32%
Titanium Oxide
11%
Transition Metal
11%
Water Splitting
51%
X-Ray Diffraction
17%
ZnO
11%
Chemical Engineering
Activated Carbon
23%
Apparent Quantum Efficiency
15%
Cadmium Sulfide
23%
Carbon Dioxide
14%
Carbon Nanotube
15%
Catalyst Surface
15%
Cementitious
11%
Co-doped g-C3N4
11%
Copolymer
11%
Copolymerization
11%
Desorption
14%
Efficient Adsorption
11%
Film
52%
Fullerene
11%
Graphene
23%
H2 Production
51%
Heterojunction Photocatalyst
11%
High Photocatalytic Activity
14%
Hydrogen Peroxide
11%
Hydrogen Production
52%
Interfacial Engineering
5%
Methane
11%
Multiple Active Sites
11%
Nanoparticle
56%
Nanosheet
35%
Nanostructure
5%
Oleic Acid
19%
Photocatalysis
68%
Photocatalytic CO2 Reduction
11%
Photocatalytic Degradation
16%
Photocatalytic Efficiency
5%
Photocatalytic H2 Production
36%
Photocatalytic H2O2 Production
11%
Photocatalytic Hydrogen Evolution
23%
Photocatalytic Materials
11%
Photocatalytic NO Removal
11%
Photocatalytic System
5%
Photogenerated Holes
5%
Pollutant Degradation
11%
S-Scheme Heterojunction
11%
Semiconductor Photocatalyst
19%
Sorption
5%
Tetracycline
8%
Titanium Dioxide
29%
Titanium Oxide
11%
Triethanolamine
11%
Upconversion Luminescence
27%
Visible Light Irradiation
11%
Visible-light-driven Photocatalyst
11%
Visible-light-responsive
5%
Engineering
Absorption Edge
11%
Activated Carbon
11%
Active Site
17%
Annealing Temperature
11%
Atmospheric Pressure
11%
Band Structure
11%
Carbon Quantum Dot
11%
Catalyst Surface
9%
Charge Carrier
9%
Chromophore
11%
Cycling Stability
5%
Design Aspect
5%
Discharge Capacity
5%
Electric Field
11%
Energy Storage
5%
Flux Density
11%
Hydrogen Bubble
5%
Induced Charge
6%
Infrared Light
14%
Insulating Layer
5%
Interlayer Space
5%
Internal Electric Field
23%
Light Absorption
12%
Methane
11%
Mols
26%
MXene
11%
Nanocomposite
11%
Nanoparticle
17%
Nanosheet
23%
Nitride
11%
Oxidative Coupling of Methane
11%
Oxygen Evolution Reaction
11%
Photocatalysis
43%
Photocatalysts
45%
Photocatalytic Hydrogen Production
11%
Photocatalytic Water Splitting
15%
Photocurrent
7%
Photogenerated Carrier
14%
Piezoelectric
14%
Power Density
17%
Quantum Efficiency
8%
Quantum Well
11%
Rate Capability
11%
Retention Capacity
5%
Superposition
11%
Symmetric Structure
11%
Temperature Change
11%
Thermal Oxidation
11%
Two Dimensional
11%
Water Splitting
11%
