Fe nanoparticles confined by multiple-heteroatom-doped carbon frameworks for aqueous Zn-air battery driving CO2 electrolysis
T Wang, Q Zhang, K Lian, G Qi, Q Liu, L Feng… - Journal of Colloid and …, 2024 - Elsevier
Metal-organic frameworks (MOF) derived carbon materials are considered to be excellent
conductive mass transfer substrates, and the large specific surface area provides a …
conductive mass transfer substrates, and the large specific surface area provides a …
Fe nanoparticles confined by multiple-heteroatom-doped carbon frameworks for aqueous Zn-air battery driving CO2 electrolysis
T Wang, Q Zhang, K Lian, G Qi, Q Liu… - Journal of Colloid …, 2024 - ui.adsabs.harvard.edu
Metal-organic frameworks (MOF) derived carbon materials are considered to be excellent
conductive mass transfer substrates, and the large specific surface area provides a …
conductive mass transfer substrates, and the large specific surface area provides a …
Fe nanoparticles confined by multiple-heteroatom-doped carbon frameworks for aqueous Zn-air battery driving CO2 electrolysis.
T Wang, Q Zhang, K Lian, G Qi, Q Liu… - Journal of Colloid and …, 2023 - europepmc.org
Metal-organic frameworks (MOF) derived carbon materials are considered to be excellent
conductive mass transfer substrates, and the large specific surface area provides a …
conductive mass transfer substrates, and the large specific surface area provides a …
Fe nanoparticles confined by multiple-heteroatom-doped carbon frameworks for aqueous Zn-air battery driving CO2 electrolysis
T Wang, Q Zhang, K Lian, G Qi, Q Liu… - Journal of colloid … - pubmed.ncbi.nlm.nih.gov
Metal-organic frameworks (MOF) derived carbon materials are considered to be excellent
conductive mass transfer substrates, and the large specific surface area provides a …
conductive mass transfer substrates, and the large specific surface area provides a …