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Ke Xie
Research Assistant Professor
,
Chemistry
Member
,
IIN - International Institute for Nanotechnology
h-index
h10-index
h5-index
3376
Citations
23
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
2576
Citations
22
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
252
Citations
8
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
2011
2025
Research activity per year
Overview
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Network
Grants
(9)
Research Output
(40)
Similar Profiles
(6)
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Dive into the research topics where Ke Xie is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
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Material Science
2D Nanomaterials
9%
Actuator
9%
Adsorption Kinetics
9%
Amorphous Metal
9%
Capacitance
16%
Carbon Dioxide
93%
Catalyst Activity
9%
Cellular Material
9%
Composite Material
45%
Composite Membrane
27%
Cross-Linked Polyethylene
7%
Cyclic Voltammetry
7%
Density
13%
Electrocatalysis
9%
Electrocatalysts
6%
Electrochemical Property
10%
Electronic Circuit
9%
Film
9%
Film Growth
9%
Graphene
10%
Graphene Oxide
9%
Hydrogen Evolution
15%
Hydrogen Peroxide
9%
Lithium
9%
Manganese Oxide
9%
Mechanical Stability
9%
Metal-Organic Framework
100%
Nanocomposite
9%
Nanoparticle
28%
Nanosheet
18%
Nanotubes
9%
Nanowires
9%
Oxygen Evolution
9%
Plasticizer
9%
Polyaniline
9%
Polyethylene Glycol
27%
Polymer Electrolyte
9%
Potassium
9%
Reduced Graphene Oxide
9%
Ruthenium
9%
Self Assembly
9%
Silica Nanoparticle
9%
Sodium
9%
Stabilizer (Agent)
9%
Supercapacitors
21%
Surface (Surface Science)
33%
Thermal Insulation
9%
Thin Films
24%
Ultrathin Film
9%
Zeolite
18%
Keyphrases
2D Nanomaterials
9%
Adsorbent
13%
C4F7N/CO2
29%
Carbon Yarn
9%
Carbonate
15%
Catalyst Design
9%
Catalyst Support
12%
Cationomer
9%
Cellular Monoliths
9%
CO2 Capture
27%
CO2 Electroreduction
18%
CO2 Permeation
11%
CO2 Separation
12%
Composite Membrane
20%
Current Density
15%
Direct Air Capture
12%
Electrocatalysis
9%
Electrochemical CO2 Reduction
13%
Energy Efficiency
16%
Ethylene
20%
Faradaic Efficiency
17%
Functionalized SiO2 Nanoparticles
9%
Ga Doping
9%
Gas Separation Membrane
18%
Gutter Layer
11%
High CO2
11%
High Performance
21%
High Specific Capacitance
10%
High Stability
12%
Hybrid Electrocatalyst
9%
Hydrogen Evolution
13%
Hydrogen Peroxide
9%
Integrated Energy System
9%
Li +
15%
Metal-organic Framework Nanoparticles
12%
Metal-organic Framework Nanosheets
18%
Metal-organic Frameworks (MOFs)
65%
Metal-organic Materials
9%
Mixed Matrix Membrane
36%
N2 Selectivity
14%
Nitrogen-doped Carbon Nanocages
9%
Polyethylene Glycol
20%
Porous Carbon Support
18%
Post-capture
12%
Rational Design
10%
Reactive Capture
12%
Separation Performance
14%
Thermal Insulation Capability
9%
Thin-film Composite Membrane
18%
Zeolite
21%
Engineering
Actuation
9%
Actuator
9%
Capture System
9%
Carbon Capture
11%
Carbon Dioxide Capture
39%
Carbon Dioxide Electroreduction
18%
Carbon Dioxide Reduction
13%
Cell Voltage
9%
Conductive
9%
Controllability
9%
Dry Solid
9%
Electrocatalysts
18%
Energy Efficiency
9%
Energy Input
9%
Energy Requirement
9%
Energy Storage
9%
Experimental Observation
9%
External Surface
9%
Fabrication Method
9%
Gas Streams
9%
Gas-Phase
9%
Graphics Processing Unit
8%
Homogeneous Catalyst
9%
Interposer
9%
Long-Term Durability
9%
Membranes Separation
18%
Methane
25%
Mixed Matrix Membrane
27%
Nanocomposites
9%
Nanoparticles
19%
Nucleation Rate
9%
Parent Structure
9%
Plasticisation
9%
Polyaniline
9%
Porosity
26%
Product Gas
9%
Product Yield
9%
Rate Control
9%
Recyclability
9%
Reduced Graphene Oxide
9%
Segmental Motion
9%
Separation Gas
18%
Separation Performance
13%
Silica Nanoparticle
9%
Structural Stability
9%
Synergistic Effect
9%
Thin Films
10%
Thin-Film Composite
14%
Transference Number
9%
Voltage Stability
9%
