Chemical Engineering
Trichloroethylene
100%
Adsorption
84%
Carbon Tetrachloride
44%
Desorption
28%
Ion Exchange
25%
Reverse Osmosis
19%
Fluidized Bed
18%
Chemisorption
16%
Electrodialysis
14%
Functional Group
14%
Sorption
12%
Iron Oxide
11%
Carbon Dioxide
9%
Halocarbon
9%
Sulfuric Acid
9%
Graphene
9%
Feasibility Study
9%
Dissolved Oxygen
9%
Trifluoroacetic Acid
9%
Potable Water
8%
Fouling
7%
Organic Carbon
6%
Electric Current Measurement
5%
Molecular Mechanics
5%
Groundwater
5%
Gibbs Free Energy
5%
Phase Separation
5%
Chemistry
Electron Transport
25%
Carbon Tetrachloride
22%
Electron Transfer
22%
Density Functional Theory
19%
Ferric Hydroxide
15%
Zerovalent Iron
14%
Chemisorption
14%
Hydrogen
13%
Dielectric Spectroscopy
12%
Sorption
11%
Chlorocarbon
9%
Reductive Dechlorination
9%
Liquid Film
9%
Adsorption Isotherm
8%
Micro Porosity
7%
Dechlorination
7%
Complexation
6%
Chemical Passivation
6%
Reaction Activation Energy
6%
Electric Field
6%
Halocarbon
5%
Adsorbent
5%
Silicon Dioxide
5%
Chloroethene
5%
Keyphrases
Trichloroethylene
18%
Iron Surface
15%
Rate Limiting
14%
Carbon Tetrachloride
13%
Boron-doped Diamond Electrode
11%
Diamond Electrode
10%
Electrochemical Investigation
9%
Performance Mechanisms
9%
Diamond Surface
7%
Electron Transfer
6%
Halocarbons
6%
Hydroxyl Radical
6%
Hydrogen-terminated Surface
6%
Zero-valent Iron
5%
Electrode Wear
5%
Indirect Electron Transfer
5%
Oxychlorine
5%