跳到主要导航
跳到搜索
跳到主要内容
北京理工大学 首页
English
中文
首页
师资队伍
研究单位
科研成果
奖项
按专业知识、名称或附属进行搜索
查看 Scopus 资料
段 国义
化学与化工学院
h-index
571
引用
13
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
2018
2025
每年的科研成果
概览
指纹图谱
合作网络
科研成果
(23)
相似学者
(1)
指纹图谱
深入其中 Guoyi Duan 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
Carbon Dioxide
100%
Ionic Liquid
78%
Density
29%
Stainless Steel
28%
Oxygen Evolution
28%
Silver
26%
Oxidation Reaction
21%
Steel Fiber
21%
Surface (Surface Science)
21%
Electrocatalysts
20%
Sodium
19%
Nanoparticle
16%
Catalysis
16%
Chemisorption
16%
Hydrogenation
14%
Vitamin C
14%
Palladium
14%
Zirconia
14%
Ion Chromatography
14%
Polypyrrole
14%
Oxygen Vacancy
14%
Carbon Nanotube
14%
Film
14%
Clean Fuel
14%
Nanosheet
14%
Covalent Organic Framework
14%
Layered Double Hydroxides
14%
Water Splitting
14%
Polymerization
14%
Oxide Compound
7%
Voltammetry
7%
Gas Supply
7%
Type Metal
7%
Phase Composition
7%
Scanning Electron Microscopy
6%
X-Ray Diffraction
6%
Liquid Interface
5%
Chemistry
Ionic Liquid
93%
Carbon Dioxide
41%
Current Density
30%
Dimethyl Adipate
28%
Mechanistic Study
17%
Hydrogen
17%
Porosity
17%
Ammonia
16%
Carbon Dioxide
16%
Electrocatalyst
15%
Carbon Dioxide Electroreduction
14%
Ammonia Synthesis
14%
Palladium
14%
Phenol
14%
Formate
14%
Carbon Dioxide Reduction
14%
Polypyrrole
14%
Multi-Walled Carbon Nanotube
14%
Zirconia
14%
Dopamine
14%
Sodium
14%
Chemoselectivity
14%
Reactive Oxygen Species
14%
Modified Electrodes
14%
Diphenylamine
14%
Sulfonate
14%
Ion Chromatography
14%
Salen
14%
Electrolytic Cell
14%
Organic Compound
9%
Haber-Bosch Process
9%
Cation
9%
Carbon Dioxide
9%
Table Salt
9%
Oxygen Reduction Reaction
8%
Polymerization
7%
CO2 Reduction Reaction
7%
Liquid Film
5%
Uric Acid
5%
Hydrogen Peroxide
5%
Ascorbate
5%
Ascorbic Acid
5%
Engineering
Mild Condition
19%
Acidic Condition
19%
Stainless Steel
14%
Ammonia Synthesis
14%
Advanced Oxidation Process
14%
Overall Water Splitting
14%
Nanosheet
14%
Ion Chromatography
14%
Water Splitting
14%
Carbon Dioxide Electroreduction
14%
Liquid Layer
14%
Microenvironments
14%
Cu Surface
14%
Electrolytic Cell
14%
Electrocatalyst
13%
Steel Fiber
10%
Enzymatic Activity
9%
Haber-Bosch Process
9%
Oxygen Evolution Potential
9%
Reactant
9%
Low-Temperature
9%
Oxygen Evolution Reaction
7%
Hydrogen Evolution Reaction
7%
Flow Rate
7%
Flow Velocity
7%
Porous Structure
7%
Active Site
7%
Energetics
7%
Electrocatalysts
7%