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View article: Amino-induced cleavage of the electron-communicating S-bridge to unlock mixed-valence copper for potent oxidase-like catalysis and selective sensing
Amino-induced cleavage of the electron-communicating S-bridge to unlock mixed-valence copper for potent oxidase-like catalysis and selective sensing Open
The amino functionalization of the ligand induced the cleavage of the electron-communicating S-bridge connecting adjacent dicopper centers, allowing the ratio of mixed Cu 1+ /Cu 2+ to be tuned for potent AA-oxidase-like catalysis and selec…
View article: Ligand-mediated asymmetric dicopper sites for robust catecholase-mimicking catalysis and selective sensing
Ligand-mediated asymmetric dicopper sites for robust catecholase-mimicking catalysis and selective sensing Open
An efficient catechol oxidase (CO)-like nanozyme with proximal and asymmetrically coordinated dicopper centers was developed for selective colorimetric sensing of a P-containing compound.
View article: Integrated electrocatalytic synthesis of ammonium nitrate from dilute NO gas on metal organic frameworks-modified gas diffusion electrodes
Integrated electrocatalytic synthesis of ammonium nitrate from dilute NO gas on metal organic frameworks-modified gas diffusion electrodes Open
The electrocatalytic conversion of NO offers a promising technology for not only removing the air pollutant but also synthesizing valuable chemicals. We design an integrated-electrocatalysis cell featuring metal organic framework (MOF)-mod…
View article: Steering N/S coordination number to accelerate catecholase-like catalysis over low-coordinated Cu site
Steering N/S coordination number to accelerate catecholase-like catalysis over low-coordinated Cu site Open
Modulating the coordination configuration of metal Cu center through steering the N/S coordination number around Cu center boosted the catalytic activity of catechol oxidase-mimicking nanozyme.