Keyphrases
Redox
100%
Chromium
100%
Arsenic
100%
Electroactive
100%
Iron-carbon
100%
Fe-biochar
100%
Carbon Speciation
100%
As(III)
42%
Speciation
42%
FEniCS
42%
Redox Performance
28%
Crystallites
14%
Carboxyl
14%
Reactive Oxygen Species
14%
Small-sized
14%
Cr(VI)
14%
Redox Reaction
14%
Electron Transfer
14%
Pyrolysis Temperature
14%
Rational Design
14%
Quinoid
14%
Porous Structure
14%
Redox State
14%
Pollutants
14%
Defected Ground Structure
14%
Cr(VI) Reduction
14%
Low-crystalline
14%
Oxic
14%
Anoxic Conditions
14%
Environmental Remediation
14%
Redox Transformation
14%
Surface Oxygen
14%
Edge Modes
14%
Oxic Condition
14%
Oxygen Functionalities
14%
Redox Reactivity
14%
Biomass Waste
14%
Iron Minerals
14%
Electron Donating Capacity
14%
Anoxic Environment
14%
Stepwise Pyrolysis
14%
Two-step Pyrolysis
14%
Cr(VI) Immobilization
14%
Electron Efficiency
14%
Simulated Wastewater
14%
Ferrous Mineral
14%
Fe-Y
14%
Electron Accepting Capacity
14%
Mineral Waste
14%
Chemistry
Pyrolysis
100%
Porosity
50%
Redox Reactions
50%
Reactive Oxygen Species
50%
Quinonoid Zwitterion
50%
Crystallite
50%
Surface Oxygen
50%
Redox State
50%
Electron Transport
50%
Remediation
50%
Material Science
Chromium
100%
Arsenic
100%
Biochar
100%
Redox Process
14%
Electron Transfer
14%
Surface (Surface Science)
14%
Crystallite
14%
Biochemistry, Genetics and Molecular Biology
Species Differentiation
100%
Pyrolysis
50%
Oxidation Reduction Reaction
25%
Electron Transport
25%
Porosity
25%
Chemical Engineering
Biochar
100%
Pyrolysis
28%