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南京工业大学 国内
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庄 伟
教授、博士生导师
生物与制药工程学院
电子邮件
weizhuang
njtech.edu
cn
网站
https://sgxy.njtech.edu.cn/info/1057/4668.htm
h-index
3287
引用
31
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
2008
2025
每年的科研成果
综述
指纹
网络
科研成果
(194)
相似简介
(6)
指纹
深入其中 Wei Zhuang 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
Adenosinetriphosphate
9%
Adsorbent
6%
Anode
15%
Catalase
10%
Catalysis
13%
Catalyst Activity
10%
Composite Material
48%
Concanavalin A
9%
Crystal Structure
51%
Crystallization
10%
Density
17%
Desorption
8%
Differential Scanning Calorimetry
16%
Electrocatalyst
9%
Enzyme
8%
Enzyme Activity
20%
Fourier Transform Infrared Spectroscopy
9%
Glucose Oxidase
30%
Graphene Oxide
33%
High Performance Polymer
12%
Hydrogen Bonding
7%
Hydrogen Peroxide
10%
Ionic Liquid
9%
Lignin
50%
Lipase
18%
Lithium
11%
Lithium Ion Battery
15%
Lubrication
9%
Metal-Organic Framework
15%
Microparticle
13%
Nanofiber
25%
Nanoparticle
15%
Nanosheet
8%
Nuclease
18%
Nucleation
14%
Oxidation Reaction
13%
Polyamide
13%
Polyethylene Glycol
12%
Polymerization
17%
Polymorphism
15%
Pore Size
19%
Powder X-Ray Diffraction
29%
Scanning Electron Microscopy
16%
Self Assembly
18%
Single Crystal X-Ray Diffraction
14%
Sodium
19%
Surface (Surface Science)
48%
Thermal Stability
10%
Thermogravimetric Analysis
18%
Titanium Dioxide
100%
Chemical Engineering
Acetic Acid
10%
Adsorption
12%
Adsorption Equilibrium
9%
Ascorbic Acid
5%
Biochemical Engineering
5%
Butene
47%
Carbon Black
9%
Carbonization
5%
Cationic Dye
9%
Chemical Element
6%
Chromatography
10%
Citric Acid
13%
Degradation Efficiency
6%
Desorption
14%
Differential Scanning Calorimetry
22%
Diffusion
13%
Enzymatic Hydrolysis
9%
Flocculation
6%
Functional Group
5%
Gibbs Free Energy
13%
Graphene
50%
Hierarchically Porous
6%
Hydrogen Peroxide
9%
Ion Exchange
28%
Ion Exchange Chromatography
5%
Lactoperoxidase
7%
Mass Transport
13%
Maximum Adsorption
12%
Mesopore
6%
Metal-Organic Frameworks
5%
Methanol
37%
Nanoparticle
11%
Nanosheet
7%
Polyamide
10%
Polyetherimide
13%
Polyethylene Glycol
12%
Polymerization
20%
Polysaccharide
13%
Polystyrene
9%
Pseudo-second-order Model
7%
Separation Method
21%
Sorption
5%
Sulfuric Acid
15%
Surface Diffusion
6%
Titanium Dioxide
40%
Trace Element
9%
Water Content
9%
Xylose
10%
Zeolitic Imidazolate Framework
9%
Zeta Potential
5%
Engineering
Batch Fermentation
7%
Biocatalysis
5%
Crystal Structure
9%
Crystallinity
6%
Effective Approach
7%
Enzymatic Activity
11%
Extracellular Polymeric Substance
9%
Form Crystal
10%
Graphene Oxide
13%
Hoff Equation
7%
Industrial Production
7%
Lithium-Ion Batteries
9%
Microparticles
9%
Mole Fraction
9%
Monomer
11%
Polyetherimide
9%
Polymerization
7%
Porosity
18%
Self-Assembly Approach
5%
Solid Form
11%
Specific Surface Area
10%
Thermal Behavior
6%
X-Ray Powder Diffraction
5%
