CoN-CoO with Core-Shell Structure Coupled on Cotton Stalk Derived Carbon as Catalyst to Accelerate Hydrogen Production from Sodium Borohydride.

In the future hydrogen economy, the design of efficient catalysts with dual active sites is essential to promote catalytic hydrogen production. In this paper, CoN-CoO with core@shell structure supported on cotton stalk carbon (CoN-CoO@C) possessing dual-active sites of CoN and CoO is designed. The catalyst shows excellent catalytic activity for sodium borohydride (NaBH) hydrolysis with hydrogen evolution rate (r = 1408 mL min g ). The interfacial active site and carbon framework of catalyst improve the kinetics and catalytic stability of hydrogen generation. The structure of interfacial active sites in CoN-CoO@C facilitates the dissociation of reactants (NaBH and HO molecules), thus increasing the catalytic hydrogen generation from NaBH hydrolysis (CoN activates NaBH and CoO activates HO). This work provides a new method for the modification and application of cotton stalk waste-derived carbon materials. The construction of core@shell catalysts with dual active sites provides theoretical guidance for the rational design of advanced transition metal carbide materials. This discovery offers a novel perspective and direction for designing efficient functional catalysts.