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
毛 倩
宇航学院
h-index
1170
引用
20
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
2015
2024
每年的科研成果
概览
指纹图谱
合作网络
科研成果
(45)
相似学者
(1)
指纹图谱
深入其中 Qian Mao 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
Activation Energy
6%
Aluminum
14%
Amorphous Material
20%
Bio-Based Polymer
9%
Carbon Fiber
14%
Carbon Fiber Production
9%
Carbon Nanotube
14%
Combustion System
14%
Crystalline Material
14%
Dehydrogenation
9%
Diamond
14%
Electrochemical Device
5%
Electronic Structure Calculation
14%
Electrospinning
11%
Flame Synthesis
7%
Fossil Fuel
14%
Fullerene
7%
Gas Phase Synthesis
14%
Grain Boundary
5%
Graphene
45%
Heat of Reaction
7%
Heat Treatment
8%
Hydride
14%
Hydrogenation
14%
Matrix Composite
14%
Metal-Organic Chemical Vapor Deposition
14%
Monolayers
14%
Nanofiber
14%
Nanoparticle
53%
Nanoparticle Synthesis
7%
Nitrogen Dioxide
8%
Nitrogen Oxide
14%
Nucleation
21%
Oxidation Reaction
100%
Palladium
14%
Sintering
42%
Surface Energy
20%
Surface Reaction
16%
Titanium Dioxide
32%
Transition Metal Dichalcogenide
6%
Two-Dimensional Material
19%
Chemistry
Acenaphthene
9%
Aluminum Hydride
14%
Ammonia
14%
Binary Diffusion Coefficient
9%
Chain Reaction
14%
Chemical Decomposition
8%
Circumcoronene
6%
Cyclopentadiene
14%
Cyclopentadienyl
26%
Dehydrogenation
8%
Dimerization
28%
Energy Barrier
6%
Graphene
14%
Indene
17%
Master Equation
5%
Methane
14%
Methyl Formate
14%
Molecular Dynamics
56%
Molecular Dynamics Study
28%
Nitrogen Dioxide
14%
Nitrogen Oxide
14%
Palladium
14%
Polycyclic Aromatic Hydrocarbon Formation
14%
Polycyclic Aromatic Hydrocarbons
79%
Pyrolysis
42%
Quantum Chemistry
8%
Rate Constant
7%
Ring Expansion
14%
Ring Opening Reaction
5%
Trace Metal
14%
Unimolecular Reaction
14%
Engineering
Alkane
9%
Aromatics
61%
Carbon Nanotube
14%
Computer Simulation
28%
Core Region
5%
Core-Shell
17%
Defects
7%
Dehydrogenation
9%
Demonstrates
5%
Dimerization
14%
Fullerene
6%
Grain Boundary
5%
Graphene
14%
Graphitization
15%
Joints (Structural Components)
14%
Kinetic Model
14%
Lennard-Jones Parameter
14%
Lignite
9%
Low-Temperature
20%
Methyl Formate
14%
Moderate Temperature
6%
Monomer
15%
Nanoparticle
14%
Nucleation Mechanism
9%
Oxide Layer
7%
Reference Fuel
9%
Sintering
14%
Temperature Increase
8%
