MOF-on-MOF heterojunction-derived Co3O4-CuCo2O4 microflowers for low-temperature catalytic oxidation

Through the exchange-extended growth method (EEGM), MOF-on-MOF heteroarchitectures with distinct crystallography were produced and pyrolyzed into hybrid metal oxides. The strong exchange ability of organometallic compounds realized the component reconstruction of the MOF matrix and enhanced the interfacial forces between MOFs, showing an excellent performance in low-temperature catalytic oxidation.

Automated summary

MOF-on-MOF heteroarchitectures with distinct crystallography were synthesized via the exchange-extended growth method (EEGM) and pyrolyzed into hybrid metal oxides. The strong exchange ability of organometallic compounds led to component reconstruction of the MOF matrix and enhanced interfacial forces between MOFs, resulting in excellent performance in low-temperature catalytic oxidation.