Abstract
Ligand-stabilized metal nanoparticles (MNPs) have attracted much attention due to their promising catalytic applications. Fully/partially removing these ligands is critical to realize their proper functions. The traditional ligand-removing approaches (e.g., thermal annealing) focus on the ligand side. Herein, we demonstrate an electrochemical method that pays attention to the MNPs side. By rationally regulating the potential (oxidizing Pt and hydrogen evolution) to construct robust Pt–O or Pt–H covalent bond to displace Pt–ligand coordination bond, the approach could effectively remove almost all kinds of ligands from Pt NPs. For the oxidizing Pt method, up potential > 1.3 V and cycling number (n) > 20 are preferred to completely remove the ligands. The water-soluble ligands (such as poly(vinylpyrrolidone), cetyltrimethylammonium bromide, sodium acetate) can be removed by just one cycle after thoroughly being washed by water to remove the unattached ligands. However, the oil-soluble ligands (such as oleyl...
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