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Xue Can
Assoc Prof
Associate Professor
,
School of Materials Science & Engineering
https://orcid.org/0000-0001-8399-3973
Email
cxue
ntu.edu
sg
h-index
h10-index
h5-index
11438
Citations
60
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
3896
Citations
34
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
886
Citations
15
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
2002
2025
Research activity per year
Overview
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Research output
(102)
Press/Media
(3)
Datasets
(4)
Similar Profiles
(6)
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Dive into the research topics where Xue Can 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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Material Science
Nanostructure
96%
Nanoparticle
92%
Photocatalysts
83%
Silver
82%
Titanium Dioxide
80%
Graphitic Carbon Nitride
78%
Heterojunction
75%
Surface (Surface Science)
62%
Carbon Dioxide
55%
Nanosheet
53%
Nanowire
53%
Carbon Nitride
53%
Hydrogen Evolution
48%
Surface Plasmon
46%
Oxidation Reaction
45%
Surface Active Agent
28%
Water Splitting
28%
Nanorod
27%
Conjugated Polymer
24%
Catalyst Activity
24%
Phase Composition
24%
Nanofiber
22%
Metal Nanoparticle
22%
Metal Oxide
18%
Lithography
18%
Gold Nanoparticle
17%
CO2 Photoreduction
15%
Microsphere
15%
Gold Coating
15%
Optical Property
14%
Oxide Compound
13%
Photocatalysis
13%
Solution
12%
Film
12%
Theoretical Calculation
11%
Surface-Enhanced Raman Spectroscopy
11%
Monolayers
10%
Catalysis
10%
Chemical Processing
10%
Charge Carrier
10%
Oxygen Vacancy
10%
Nanostructured Material
10%
Nanocomposite
10%
Refractive Index
9%
Electron Transfer
9%
One-Pot Synthesis
9%
Photoelectrochemical Water Splitting
8%
Single Crystal
8%
Polyelectrolyte
8%
Calcination
8%
Chemical Engineering
Nanoparticle
100%
Nanostructure
75%
Titanium Dioxide
73%
Polymeric Carbon Nitride
62%
Carbon Nitride
55%
Nanosheet
52%
Hydrogen Production
50%
Precious Metal
41%
Conjugated Polymer
30%
Photocatalytic CO2 Reduction
22%
Photocatalytic Hydrogen Evolution
20%
Carbon Dioxide Reduction
18%
Methanol
15%
Carbon Dioxide Capture
15%
Nanowire
15%
Metal-Organic Frameworks
15%
Dibenzothiophene
15%
Film
12%
Photocatalysis
10%
Carbon Dioxide
10%
Nanorod
10%
Surfactant
8%
Organonitrogen Derivative
7%
Formic Acid
7%
Transition Metal
7%
Melamine
7%
Ammonia Electrosynthesis
7%
Polymerization
7%
Triethanolamine
7%
Methane
7%
Dendrimer
7%
Thiourea
7%
CO2 Conversion
7%
Calcination
7%
Lactic Acid
7%
Visible Light Irradiation
7%
Bismuth Tungstate
6%
Olefin
5%
Metal Nanoparticle
5%
Keyphrases
Heterojunction
22%
G-C3N4
20%
Visible Light Irradiation
17%
Photocatalytic Hydrogen Production
15%
Nano-heterostructure
15%
Solar Fuel Production
15%
Photocatalytic Hydrogen Generation
15%
High Efficiency
15%
Enhanced Photocatalysis
15%
Photocatalytic Efficiency
12%
Silver Nanoprisms
11%
Nanoprisms
11%
In Situ Growth
10%
Enhanced Photocatalytic Activity
10%
Photogenerated Electrons
9%
Dye Sensitization
9%
Photocatalyst
8%
Photogenerated Holes
7%
Full Solution
7%
ZnO@ZnS
7%
Visible-light Photocatalyst
7%
Seed-mediated
7%
NiOx Nanoparticles
7%
Erythrosine
7%
MIL-101
7%
Ag2Se
7%
Nitrogen Conversion
7%
Colloidal Metal Nanoparticles
7%
BiVO4
7%
AuPd Nanoparticles
7%
Copper-iron
7%
AuCd
7%
Heterojunction Nanocomposite
7%
Single-atom Au
7%
Iron Nanowires
7%
Photocatalytic Decomposition
7%
Decorated TiO2
7%
Formic Acid Decomposition
7%
Large-scale Assembly
7%
Solar-to-fuel Conversion
7%
TiO2 Nanofibers
7%
Polymeric Carbon Nitride
7%
Hydrogen Production
7%
Cubane
7%
Growth Pathway
7%
Infrared Plasmons
7%
1D/2D Heterostructure
7%
PH-switchable
7%
Chemical Sensing
7%
RuO2-TiO2
7%
