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Dr Di Hu
Associate Professor in Environmental Engineering
Department of Chemical and Environmental Engineering
Zhejiang Aviation Electrification Technology Engineering Research Center
Advanced Energy and Environmental Materials & Technologies Research Group
Email
Di.Hu
nottingham.edu
cn
h-index
1457
Scopus Citations
16
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
2007
2024
Research activity per year
Overview
Fingerprint
Network
Projects
(5)
Research output
(45)
Supervised Work
(6)
Fingerprint
Dive into the research topics where Di Hu is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
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Weight
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Engineering & Materials Science
Molten materials
100%
Salts
83%
Carbon
69%
Carbon nanotubes
63%
Electrolysis
60%
Electrodes
55%
Energy storage
52%
Titanium
50%
Metals
49%
Electrolytes
49%
Supercapacitor
45%
Spent fuels
39%
Polymers
39%
Carbon steel
38%
Oxides
38%
Acids
37%
Oxidation-Reduction
37%
Polyaniline
36%
Dissolution
36%
Lithium
35%
Ions
34%
Titanium alloys
34%
Electrometallurgy
32%
Composite materials
32%
Graphene
31%
Potassium iodide
30%
Capacitance
26%
Carbonates
26%
Manganese oxide
26%
Coatings
25%
Electron beam melting
24%
Conducting polymers
23%
Metallizing
23%
Monomers
23%
Electrochemical properties
23%
Cathodes
22%
Ink
22%
Fabrication
22%
Superhydrophobicity
22%
Anodes
21%
Zinc
21%
Electrodeposition
21%
Corrosion inhibitors
21%
Cerium oxide
20%
Optical properties
20%
Scanning electron microscopy
20%
Activated carbon
20%
Toxicity
19%
Electric potential
19%
Ferrite
18%
Chemical Compounds
Molten Salt
66%
Energy Storage
54%
Electrolysis
36%
Behavior as Electrode
34%
Carbon Atom
32%
Voltage
32%
Composite Material
32%
Carbon Nanotube
31%
Titanium Alloy
30%
Electrodeposition
27%
Carbonate Salt
25%
Sphere
24%
Energy
23%
Spray
23%
Ink
22%
Electrochemical Reduction
22%
Electric Double Layer
21%
Bromide
20%
Potassium Iodide
20%
Coating Agent
19%
Graphene
18%
Trimethylammonium
18%
Anode
17%
Flame Retardant
16%
Cathode
16%
Diol
15%
Current Efficiency
15%
Melting
14%
Surface
14%
Conducting Polymer
13%
Metal
13%
Gas
13%
Fluoride
13%
Dissolution
13%
Safety
12%
Carbon Dioxide
12%
Meso Porosity
12%
Halide
12%
Heat Storage
11%
Application
11%
Monomer
11%
Biodegradability
11%
Alloy
11%
Electrolytic Cell
11%
Electrode Reaction
10%
Electricity
10%
Nanodiamond
10%
Titanium Dioxide
10%
Conductivity
10%
Electron Beam Melting
9%
Physics & Astronomy
molten salts
38%
electrodeposition
37%
potassium iodides
26%
carbon
19%
electrolysis
19%
bromides
19%
carbon nanotubes
18%
carbonates
18%
chlorides
16%
products
15%
acids
15%
steels
15%
dissolving
15%
titanium alloys
14%
synthesis
13%
polymers
13%
composite materials
12%
electrodes
12%
oxidation
12%
electrolytic cells
11%
metal oxides
10%
cells
9%
stripping
9%
vinylidene
9%
plating
9%
electrolytes
8%
accumulators
8%
fluorides
8%
sprayers
7%
tin
7%
anodes
7%
hollow
7%
corrosion
7%
lithium
7%
cost analysis
6%
metals
6%
graphene
6%
energy storage
6%
inhibitors
6%
performance
5%
optimization
5%
metal surfaces
5%