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南京工业大学 国内
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研究单位
科研成果
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戴 翼虎
教授、硕士生导师
化学与分子工程学院
电子邮件
ias_yhdai
njtech.edu
cn
网站
https://chem.njtech.edu.cn/info/1073/3026.htm
h-index
3416
引用
32
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
2009
2025
每年的科研成果
综述
指纹
网络
科研成果
(90)
相似简介
(5)
指纹
深入其中 Yihu Dai 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
Chemical Engineering
5-Furandicarboxylic Acid
27%
Acidic Sites
10%
Alkylation
12%
Carbon Dioxide
95%
Carbon Dioxide Reduction
11%
Carbon Nanotube
18%
Catalytic Reaction
33%
Catalytic Stability
22%
Cobalt Catalyst
30%
Coke Deposition
13%
Dehydrogenation
80%
Desorption
30%
Fluidized Bed
18%
Formaldehyde
22%
Formic Acid
9%
Furfural
41%
Graphene
12%
Hydrogen Peroxide
27%
Hydrogenation
98%
Hydrogenation Reaction
16%
Iron Oxide
18%
Kinetic Study
14%
Lattice Oxygen
18%
Mesopore
18%
Metal Nanoparticle
40%
Metal-Support Interaction
9%
Methanation
45%
Methane
23%
Methanol
9%
Mixed Oxide Catalyst
9%
Molecular Oxygen
21%
Nanoclusters
42%
Nanoparticle
100%
Nanosheet
16%
Nanostructure
14%
Nanowire
18%
Ni Catalyst
36%
Noble Metal Catalyst
12%
Oxide Catalysts
26%
Precious Metal
41%
Propane Dehydrogenation
63%
Propane Dehydrogenation Reaction
41%
Propylene
70%
Pt Catalyst
18%
Rich Oxygen Vacancies
13%
Samarium
9%
Selective Hydrogenation
48%
Titanium Dioxide
18%
Transition Metal
27%
Zeolite Catalyst
13%
Material Science
Al2O3
27%
Boron Nitride
9%
Carbon Dioxide
76%
Carbon Nanotube
10%
Catalysis
24%
Catalyst Activity
37%
Catalyst Support
11%
Cerium Oxide
23%
Chemisorption
9%
Cobalt
20%
Cobalt(II,III) Oxide
10%
Composite Material
10%
Covalent Organic Framework
9%
Dehydrogenation
16%
Density
20%
Desorption
15%
Glycerol
20%
Hydrogen Evolution
9%
Hydrogen Peroxide
9%
Hydrogenation
74%
Materials Application
9%
Metal Nanoparticle
16%
Metal Oxide
22%
Microsphere
9%
Nanoclusters
50%
Nanoparticle
57%
Nanosheet
10%
Nanostructure
9%
Nanostructured Material
13%
Nanowire
18%
Optical Property
13%
Oxidation Reaction
33%
Oxidative Dehydrogenation
18%
Oxide Compound
28%
Oxygen Vacancy
19%
Palladium
18%
Partial Oxidation
18%
Phase Composition
24%
Platinum
31%
Propane Dehydrogenation
36%
Silicon Dioxide
12%
Sintering
20%
Sodium Ion
9%
Surface (Surface Science)
63%
Synthesis Gas
18%
Titanium Dioxide
9%
Titanium Oxide
9%
Transition Metal
10%
Two-Dimensional Material
12%
Zeolite
18%
Chemistry
2,5-Furandicarboxylic Acid
9%
Ambient Reaction Temperature
11%
Anisole
18%
Benzaldehyde
12%
Benzyl Alcohol
27%
Carbon Dioxide
27%
Catalyst Activity
26%
Catalytic Oxidation
12%
Catalytic Reaction
12%
catalytic selectivity
12%
Cinnamaldehyde
27%
Cinnamyl Alcohol
27%
CO2 Conversion
9%
Cobalt
18%
coke
24%
Crystal Structure
9%
Cyclopentanone
24%
Dehydrogenation
44%
Desorption
17%
Dihydroxyacetone
18%
Dioxygen
12%
Electrocatalysis
10%
Electronic Property
18%
electronics
20%
Formaldehyde
22%
Formate
12%
formation
40%
Furfural
27%
Furfuryl Alcohol
16%
Glycerol
18%
Graphene Oxide
9%
Hydrogen
65%
Hydrogen Peroxide
9%
Hydrogenation
76%
Iron Oxide
9%
Meso Porosity
39%
Metallic Catalyst
10%
Methane
30%
Microsphere
9%
Nanoparticle
64%
Neodymium
9%
Noble Metal
18%
Palladium
18%
Phase Composition
16%
Platinum Nanoparticle
10%
Propene
25%
Ring Rearrangement
11%
Samarium
9%
stability
32%
Turnover Frequency
11%
