Keyphrases
Pollutant Degradation
100%
Graphene Surface
100%
Laser-induced Graphene
100%
Microbial Removal
100%
Degradation Removal
100%
Ti4O7
100%
Undoped
25%
Environmental Applications
25%
Laser-induced Graphene Electrode
25%
Electrode Materials
12%
Hydroxyl Radical
12%
Electrochemical Properties
12%
Electrical Properties
12%
Electrocatalytic Behavior
12%
Rutile
12%
Filtration
12%
Electrochemical Impedance Spectroscopy
12%
Antifouling
12%
Applied Voltage
12%
Electrochemical Performance
12%
Energy Applications
12%
CO2 Laser
12%
Membrane Materials
12%
Doped Electrode
12%
Doping Concentration
12%
Electrochemical Characterization
12%
Flow-through
12%
Cyclic Voltammetry
12%
In Situ Generation
12%
Polyethersulfone
12%
Facile Fabrication
12%
Environmentally Friendly Methods
12%
Graphene Doping
12%
Biofilm Inhibition
12%
Metal Doping
12%
Bacterial Killing
12%
Graphene Foam
12%
Mixed Bacterial Culture
12%
Pollution Sensing
12%
Methylene Blue Degradation
12%
Log Removal
12%
Bacterial Inactivation
12%
Degradation Performance
12%
Chemical Inertness
12%
Sub-stoichiometric Titanium Oxide
12%
TinO2n-1
12%
Conductive Filters
12%
Environmental Decontamination
12%
Decontamination Performance
12%
Non-metal Doping
12%
Attraction Points
12%
Pollutant Decontamination
12%
Engineering
Laser-Induced Graphene
100%
Microorganism Removal
100%
Decontamination
30%
Graphene
20%
Energy Engineering
10%
Flow Rate
10%
Conductive
10%
Applied Voltage
10%
Inhibition
10%
Log Removal
10%
Chemical Inertness
10%
Material Science
Laser-Induced Graphene
100%
Graphene
20%
Electrochemical Property
10%
Carbon Dioxide
10%
Cyclic Voltammetry
10%
Dielectric Spectroscopy
10%
Biofilms
10%
Titanium Oxide
10%
Titanium
10%
Chemical Engineering
Graphene
100%
Titanium Oxide
8%
Polyether
8%