Keyphrases
G-C3N4
50%
Copper(II) Oxide
34%
Ethylene
31%
High Efficiency
28%
Electrocatalyst
28%
Polyvinyl
25%
CuO Electrode
25%
Supported Copper-based Catalyst
25%
Heteronuclear
25%
NiAg
25%
Recent Advances
25%
CO2 Electroreduction
25%
Highly Selective
25%
CO2 Electrochemical Reduction
25%
CO Selectivity
25%
Graphitic Carbon Nitride (g-CN)
25%
Dual-atom Catalysts
25%
Electrochemical CO2 Reduction
25%
Synergistic Engineering
25%
C2+ Products
25%
CO2 Reduction Reaction (CO2RR)
25%
Hydrophobicity
25%
Dichlorides
21%
Electrocatalytic CO2 Reduction
15%
C-C Coupling
9%
Synergistic Effect
9%
Faradaic Efficiency
9%
Electrocatalytic Carbon Dioxide Reduction
8%
Graphite Carbon Nitride
6%
Copper Oxide Nanosheets
6%
Good Durability
6%
Copper Oxide Particles
6%
Copper Oxide Catalyst
6%
One-step Hydrothermal Method
6%
Single-atom Catalysts
6%
Two Dimensional
6%
Reversible Hydrogen Electrode
6%
Pure Copper
6%
CO2 Adsorption
6%
Proton Transfer
6%
Carbon Dioxide Reduction Reaction
5%
Carbon Nitride
5%
Graphitic Phase
5%
Structural Properties
5%
Catalyst Support
5%
Carbon Dioxide Emissions
5%
Enhanced CO2
5%
Effective Means
5%
Greenhouse Effect
5%
Chemical Stability
5%
Chemistry
Carbon Dioxide Reduction
37%
Single Atom Catalyst
25%
Carbon Dioxide Electroreduction
25%
Hydrogen
25%
Oxalonitrile
25%
Carbon Dioxide
25%
Porosity
12%
Carbon Dioxide Reduction Reaction
12%
Metal Atom
12%
Catalyst Support
12%
Catalyst Poisoning
12%
Raman Spectrum
12%
Energy Barrier
12%
Density Functional Theory
12%
Pyrolysis
12%
Chemical Stability
12%
Rate-Determining Step
12%
Structure
12%
Carbon Dioxide Emission
12%
Material Science
Carbon Dioxide
100%
Graphitic Carbon Nitride
50%
Hydrophobicity
25%
Electrochemical Reaction
25%
Catalyst Poisoning
12%
Oxide Compound
12%
Density
12%
Porous Carbon
12%
Carbon Nitride
10%
Catalyst Support
10%
Electrocatalysts
8%
Hydrogen Evolution
8%
Oxide Particle
6%
Nanosheet
6%
Hydrothermal Synthesis
6%