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Juan Tan
Forsker
Forsker
,
Afdeling for Kortlægning og Mineralske Råstoffer
https://orcid.org/0009-0004-6283-6273
Telefon
+45 91333867
E-mail
jta
geus
dk
Øster Voldgade 10
1350 Copenhagen K
Denmark
h-index
401
Citationer
8
h-index
Beregnet ud fra antal publikationer lagret i Pure og citationer fra Scopus
2007
2024
Publikationer pr. år
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Fingeraftryk
Netværk
Publikationer
(17)
Lignende profiler
(6)
Fingeraftryk
Dyk ned i forskningsemnerne, hvor Juan Tan er aktive. Disse emneetiketter kommer fra dennes persons arbejder. Sammen danner de et unikt fingerprint.
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Vægt
Alfabetisk
Material Science
Surface (Surface Science)
100%
Cobalt
83%
Corrosion
59%
Oxidation Reaction
59%
Material Flow Analysis
51%
Oxide Compound
47%
Aluminum
43%
Tin
39%
Scrap Metal
39%
Density
39%
Alloying
39%
Sodium
39%
Flow Analysis
39%
Materials Engineering
39%
Lithium
39%
Silicon Alloys
39%
Fretting Wear
39%
Ceramic Coating
39%
Tin Alloy
39%
Fretting
26%
Phase Composition
24%
Electrochemical Property
19%
Photoemission Spectroscopy
19%
Electron Microscopy
19%
Hydrothermal Synthesis
19%
Energy-Dispersive X-Ray Spectroscopy
19%
Film
19%
Lithium Ion Battery
16%
Metal Surface
15%
Grain Boundaries
15%
Solid Solutions
15%
Delamination
13%
Dealloying
7%
Scanning Electron Microscopy
6%
Dynamic Analysis
6%
Abrasion
6%
Surface Structure
6%
Coefficient of Friction
6%
Zinc Coating
6%
Microscopy
6%
Greenhouse Gas
5%
Solid State Battery
5%
Cathode Material
5%
Sodium Ion Battery
5%
Gas Emission
5%
Lithium-Sulfur Battery
5%
Fossil Fuel
5%
Battery Material
5%
Engineering
Engineering
52%
Wind Power
39%
Material Flow
39%
Fretting Wear
39%
Fretting
39%
Alloying Element
39%
Grain Boundaries
39%
Australia
39%
Flow Analysis
19%
Life Cycle Assessment
19%
Rolled Condition
19%
Passivation
19%
Friction Coefficient
19%
Coefficient of Friction
19%
Porosity
19%
Delamination
19%
Solid Solutions
19%
Renewable Energy
13%
Material Flow Analysis
13%
Experimental Result
9%
Porous Structure
9%
Smooth Surface
9%
Damage Mechanism
9%
Displacement Amplitude
9%
Running Condition
9%
Abrasive Wear
9%
Structure Surface
9%
Potential Application
9%
Initial Stage
9%
Wind Energy Development
6%
Demand Forecasting
6%
Energy Resource
6%
Earth and Planetary Sciences
China
72%
Material Flow Analysis
52%
Megacity
39%
Life Cycle
39%
Scrap Metal
39%
Wind Power
39%
Network Analysis
26%
Renewable Energy
24%
Recycling
19%
Australia
19%
Chile
19%
Material Flow
19%
Iron 58
13%
Trade Flow
13%
Industrial Ecology
13%
United States
13%
Urban Planning
13%
Germany
13%
Decomposition Analysis
13%
Structural Change
13%
Urban Development
13%
Economic developments
13%
Interlayer
13%
Denmark
11%
Global Climate
5%
Energy Resource
5%