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南京工业大学 国内
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汪 俊岭
副教授、硕士生导师
安全科学与工程学院
电子邮件
202010006849
njtech.edu
cn
网站
https://cces.njtech.edu.cn/info/1024/2801.htm
h-index
5806
引用
47
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
2016
2025
每年的科研成果
综述
指纹
网络
科研成果
(131)
相似简介
(6)
指纹
深入其中 Junling Wang 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
Flame Retardant
100%
Composite Material
93%
Lithium Ion Battery
66%
Epoxy
52%
Polyurethane
43%
Nanosheet
36%
Thermoplastics
35%
Metal-Organic Framework
27%
Nanostructure
25%
Anode
23%
Sodium Ion Battery
23%
Boron Nitride
22%
Polymer Composite
22%
Lithium-Sulfur Battery
20%
Surface (Surface Science)
16%
Thermal Stability
16%
Lithium Dendrite
11%
Activation Energy
11%
Graphene
11%
Carbon Nanotube
10%
Reinforced Plastic
10%
Boron
10%
Polylactide
10%
Lithium
9%
MXene
9%
Nanoparticle
8%
Aerogel
8%
Thermogravimetric Analysis
8%
Transition Metal Carbide
8%
Reduced Graphene Oxide
8%
State-of-Charge
8%
Elastic Moduli
8%
Polystyrene
7%
Molybdenum
7%
Carbon Dioxide
7%
Transition Metal
7%
Titanium Dioxide
7%
Polypyrrole
7%
High Performance Polymer
7%
Lithium Ion
7%
Polyester
7%
Radiative Cooling
6%
Polyamide
6%
Covalent Organic Framework
6%
Polyaniline
6%
Surface Engineering
6%
Silicon Nitride
6%
Oxide Compound
6%
Lithium Metal Battery
6%
Graphitic Carbon Nitride
6%
Chemical Engineering
Smoke
82%
Polyurethane
55%
Nanosheet
52%
Epoxy Resin
46%
Thermoplastics
40%
Nanostructure
39%
Enthalpy
28%
Boron Nitride
25%
Metal-Organic Frameworks
23%
Polysulfide
22%
Transition Metal
19%
Graphene
19%
Nanoparticle
18%
Titanium Dioxide
13%
Carbon Dioxide
12%
CO Production Rate
12%
Carbon Aerogel
11%
Thermal Conductivity
11%
Carbon Nanotube
10%
Polyacrylonitrile
10%
Aerogel
10%
Melamine
8%
Chitosan
7%
Polyimide
7%
Spectrometry
7%
Liquid Nitrogen
7%
Clay Mineral
6%
Doped g-C3N4
6%
Film
6%
Polyamide
6%
Polyester Resin
6%
N, S Co-doped Carbon
6%
Interfacial Engineering
5%
Polymerization
5%
Heavy Metal
5%
Chilling
5%
Engineering
Lithium-Ion Batteries
46%
Smoke
25%
Epoxy Composite
23%
Heat Release
22%
Fire Safety
21%
Nanomaterial
17%
Peak Heat Release Rate
16%
Fire Hazards
14%
Lithium-Sulfur Batteries
13%
State of Charge
13%
Porosity
11%
Molybdenum Disulfide
10%
Discharge Capacity
10%
Retardation
9%
Activation Energy
8%
Polyphosphazenes
8%
Lithium Iron Phosphate
7%
Celgard
7%
Pyrolysis
7%
Based Flame Retardant
7%
Core-Shell
6%
Low-Temperature
6%
Sodium Ion Battery
6%
Aerogel
5%
Discharge Rate
5%
Interfacial Interaction
5%
Gas-Phase
5%
Mechanical Performance
5%
Lithium Ion Battery
5%
Energy Storage
5%