Microenvironment Manipulation Strategies for Acidic CO2 Electrolysis
G Li, Y Liu, T Feng, R Ye - ChemElectroChem, 2024 - Wiley Online Library
The electrochemical reduction of CO2 (CO2RR) has gained significant attention due to its
potential to reduce carbon emissions and produce valuable fuels and chemicals. CO2RR is …
potential to reduce carbon emissions and produce valuable fuels and chemicals. CO2RR is …
Carbon dioxide electrolysis systems for high carbon efficiency
Renewable-electricity-powered CO 2 reduction (CO 2 R) could enable penetration of
renewables into the vast chemical industry. Present-day CO 2 R technology realizes …
renewables into the vast chemical industry. Present-day CO 2 R technology realizes …
Suppressing product crossover and C–C bond cleavage in a glycerol membrane electrode assembly reformer
Generating hydrogen through water electrolysis is impeded by high costs and substantial
energy consumption mainly due to high equilibrium potential and sluggish kinetics of the …
energy consumption mainly due to high equilibrium potential and sluggish kinetics of the …
Microenvironment Regulation Strategies Facilitating High-Efficiency CO2 Electrolysis in a Zero-Gap Bipolar Membrane Electrolyzer
P Yue, Q Fu, J Li, L Zhang, D Ye, X Zhu… - ACS Applied Materials …, 2023 - ACS Publications
In alkaline and neutral zero-gap CO2 electrolyzers, the carbon utilization efficiency of the
electrocatalytic CO2 reduction to CO is less than 50% because of inherently homogeneous …
electrocatalytic CO2 reduction to CO is less than 50% because of inherently homogeneous …
Local ionic transport enables selective PGM-free bipolar membrane electrode assembly
Bipolar membranes in electrochemical CO2 conversion cells enable different reaction
environments in the CO2-reduction and O2-evolution compartments. Under ideal conditions …
environments in the CO2-reduction and O2-evolution compartments. Under ideal conditions …
Advancements in Bipolar Membrane Electrodialysis Techniques for Carbon Capture
Bipolar membrane electrodialysis (BMED) is a promising technology for the capture of
carbon dioxide (CO2) from seawater, offering a sustainable solution to combat climate …
carbon dioxide (CO2) from seawater, offering a sustainable solution to combat climate …
Salt precipitation and water flooding intrinsic to electrocatalytic CO 2 reduction in acidic membrane electrode assemblies: fundamentals and remedies
Renewable electricity powered electrocatalytic CO2 reduction (eCO2R) is an emerging
carbon-negative technology that upgrades CO2 into valuable chemicals and simultaneously …
carbon-negative technology that upgrades CO2 into valuable chemicals and simultaneously …
Review on high‐performance polymeric bipolar membrane design and novel electrochemical applications
J Yan, W Yu, Z Wang, L Wu, Y Wang, T Xu - Aggregate, 2024 - Wiley Online Library
Electrochemical devices allow the conversion and storage of renewable energy into high‐
value chemicals to mitigate carbon emissions, such as hydrogen production by water …
value chemicals to mitigate carbon emissions, such as hydrogen production by water …
The pathway to net zero: a chemicals perspective
The global ambition is to reach a net zero waste and emissions society by 2050. For the
chemical sector to align with these ambitions, it needs to find alternative resource flows for …
chemical sector to align with these ambitions, it needs to find alternative resource flows for …
Alkali metal cations enhance CO2 reduction by a Co molecular complex in a bipolar membrane electrolyzer
The electrochemical reduction of CO2 is a promising pathway for converting CO2 into
valuable fuels and chemicals. The local environment at the cathode of CO2 electrolyzers …
valuable fuels and chemicals. The local environment at the cathode of CO2 electrolyzers …