Electrocatalytic Reduction of CO2 to Ethylene by Molecular Cu-Complex Immobilized on Graphitized Mesoporous Carbon/Bulk electrolysis: Difference between revisions
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|catalyst=[Cu2(NTB)2Cl2]2+ | |catalyst=[Cu2(NTB)2Cl2]2+ | ||
|cat carrier=graphitized mesoporous carbon (GMC) | |cat carrier=graphitized mesoporous carbon (GMC) | ||
|include= | |include=Yes | ||
|details=The electrochemical CO2 reduction activity of the mono- and dimeric copper complexes was evaluated by cyclic voltammetry (CV) | |details=The electrochemical CO2 reduction activity of the mono- and dimeric copper complexes was evaluated by cyclic voltammetry (CV) | ||
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}} | }} | ||
Latest revision as of 16:15, 1 April 2026
| experiment type | catalyst | cat conc [µM] | immobilization technique | catalyst carrier material | cell type | separator | working electrode (WE) | counter electrode (CE) | reference electrode (WE) | solvent A (WE) | solvent B (WE) | solvent C (WE) | solvent ratio (WE) | additives (WE) | additives concentration (WE) [M] | buffer (WE) | buffer concentration (WE) [M] | supporting electrolyte (WE) | supporting_electrolyte concentration (WE) [M] | solvent A (CE) | solvent B (CE) | solvent C (CE) | solvent ratio (CE) | additives (CE) | additives concentration (CE) [M] | buffer (CE) | buffer concentration (CE) [M] | supporting electrolyte (CE) | supporting_electrolyte concentration (CE) [M] | pH | current density [mA/cm²] | Cathodic potential vs RHE [V] | faradaic amount [F] | electrolysis duration [h] | limiting turnover number CO [Hz] | limiting turnover number HCOOH [Hz] | limiting turnover number H2C2O4 [Hz] | limiting turnover number H2CO [Hz] | limiting turnover number CH3OH [Hz] | limiting turnover number H2 [Hz] | limiting turnover number CH4 [Hz] | limiting turnover number C2H4 [Hz] | limiting turnover number CH3CH2OH [Hz] | maximum turnover frequency CO [Hz] | maximum turnover frequency HCOOH [Hz] | maximum turnover frequency H2C2O4 [Hz] | maximum turnover frequency H2CO [Hz] | maximum turnover frequency CH3OH [Hz] | maximum turnover frequency H2 [Hz] | maximum turnover frequency CH4 [Hz] | maximum turnover frequency C2H4 [Hz] | maximum turnover frequency CH3CH2OH [Hz] | turnover frequency at zero overpotential CO [Hz] | turnover frequency at zero overpotential HCOOH [Hz] | turnover frequency at zero overpotential H2C2O4 [Hz] | turnover frequency at zero overpotential H2CO [Hz] | turnover frequency at zero overpotential CH3OH [Hz] | turnover frequency at zero overpotential H2 [Hz] | turnover frequency at zero overpotential CH4 [Hz] | turnover frequency at zero overpotential C2H4 [Hz] | turnover frequency at zero overpotential CH3CH2OH [Hz] | faradaic efficiency CO [%] | faradaic efficiency HCOOH [%] | faradaic efficiency H2C2O4 [%] | faradaic efficiency H2CO [%] | faradaic efficiency CH3OH [%] | faradaic efficiency H2 [%] | faradaic efficiency CH4 [%] | faradaic efficiency C2H4 [%] | faradaic efficiency CH3CH2OH [%] | selectivity [%] [CO;HCOOH;H2C2O4;H2CO;CH3OH;H2;CH4;C2H4;CH3CH2OH] | total faradaic efficiency [%] | Details | include | |
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| experimental |
[[[Cu2(NTB)2Cl2]2+ ]] |
graphitized mesoporous carbon (GMC) |
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n/a |
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The electrochemical CO2 reduction activity of the mono- and dimeric copper complexes was evaluated by cyclic voltammetry (CV) | Yes | Property "Catalyst" (as page type) with input value "Cu2(NTB)2Cl2]2+" contains invalid characters or is incomplete and therefore can cause unexpected results during a query or annotation process. |
