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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
https://orcid.org/0000-0002-5531-1135
Email
Di.Hu
nottingham.edu
cn
h-index
1617
Scopus Citations
19
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
2007
2025
Research activity per year
Overview
Fingerprint
Network
Projects
(5)
Research output
(50)
Supervised Work
(7)
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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Keyphrases
Molten Salt
100%
Rutile
68%
Carbon Nanotubes
61%
Cambridge
59%
Near-net-shape
58%
Electrolyte
53%
Spray Coating
44%
Mild Steel
41%
Electrodeposition
40%
Electrolysis
38%
Carburisation
35%
FFC-Cambridge Process
35%
Electrochemical Energy Storage
35%
Spent Fuel
35%
Oxide Precursor
32%
Supercapacitor
32%
Electrochemical Reduction
28%
Polyaniline (PANi)
26%
Hollow Spheres
26%
Poly(3-hexylthiophene) (P3HT)
26%
Photovoltaic Devices
26%
Lithium-ion Battery
26%
Cu2ZnSnS4
26%
Supercapattery
25%
Metal Oxide
25%
Conducting Polymer
24%
Molten Carbonate Salt
23%
Hollow
23%
Carbonate
23%
Supercapatteries
23%
Salt-assisted
23%
Titanium Alloy
22%
Superhydrophobic
22%
Writing Process
22%
Direct Ink Writing
22%
Metallization Process
21%
Electrochemical Metallization
21%
Graphene
21%
Pre-oxidation
19%
Zinc
19%
Trimethylammonium Bromide
17%
S235JR Steel
17%
Poly(2-oxazoline)
17%
Myristoyl
17%
Mesoporous Manganese Dioxide
17%
Amphiphilic Oligomers
17%
Interfacial Synthesis
17%
MnOx Nanoparticles
17%
Activated Carbon Electrode
17%
Redox Species
17%
Material Science
Supercapacitors
76%
Carbon Nanotube
73%
Carbon Dioxide
68%
Titanium
56%
Carbon Steel
50%
Electrochemical Reaction
48%
Titanium Dioxide
44%
Metal Oxide
40%
Capacitance
40%
Oxidation Reaction
38%
Carburization
35%
Oxide Compound
32%
Scanning Electron Microscopy
32%
Conducting Polymer
32%
Polyaniline
31%
Lithium Ion Battery
31%
Battery (Electrochemical Energy Engineering)
30%
Anode
29%
Graphene
29%
Secondary Battery
28%
Cathode
27%
Titanium Alloys
26%
Transition Metal Oxide
26%
Potassium
26%
Electron Transfer
25%
Photovoltaics
25%
Film
24%
Ti-6Al-4V
23%
Electrodeposition
23%
Superhydrophobic
22%
Direct Ink Writing
22%
Lithium Ion
22%
Lithium
20%
Nanoparticle
19%
Alloying
17%
Metal Surface
17%
Corrosion Inhibitor
17%
Manganese Oxide
17%
Flame Retardant
17%
Plating
17%
Electrometallurgy
17%
Mechanical Stability
17%
Ionic Liquid
17%
Morphology
17%
Halide
17%
Polymer Composite
17%
Optical Property
17%
Cerium Oxide
17%
Anodic Dissolution
17%
Redox Flow Battery
17%
Engineering
Near Net Shape
62%
Energy Engineering
47%
Spent Fuels
35%
Current Efficiency
19%
Supercapacitor
17%
Carburisation
17%
Ffc Cambridge Process
17%
Engineering Component
17%
Mild Steel
17%
Situ Reduction
17%
Metallic Component
17%
Metal Extraction
17%
Electrometallurgy
17%
Reduction Process
17%
Sustainable Production
17%
Extraction Process
17%
Max
17%
Nuclear Energy
17%
Direct Reduction
17%
Melting Process
17%
Metallizations
17%
Environmental Assessment
17%
Alloy
17%
Photovoltaics
17%
Electron Beam Melting
17%
Closed Loop
17%
Ti-6al-4v
14%
Cycling Stability
14%
Kroll Process
12%
Molar Ratio
11%
Specific Surface Area
11%
Li-Metal Battery
11%
Positive Electrode
11%
Carbon Nanotube
11%
Lithium Metal Battery
11%
Current Collector
10%
Processing Condition
8%
Carbon Dioxide Electroreduction
8%
Mixture Composition
8%
Electrolytic Cell
8%
Electrolysis Cell
8%
Energy Storage
8%
Heat Treatment
8%
Structure Surface
8%
Carbon Paper
8%
Single Source
8%
Rate Constant
8%
Adsorption
8%
Processing Cost
8%
Electroreduction
8%
