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Highly efficient nanocatalyst Ni_1Co_9@graphene for hydrolytic dehydrogenation of sodium borohydride
Bimetal materials derived from transition metals can be good catalyst candidates towards some specific reactions. When loaded on graphene(GP), these catalysts exhibit remarkable performance in the hydrolysis of sodium borohydride. To obtain such catalysts easily and efficiently, a simple thermal reduction strategy was used in this study, and Ni_xCo_(10-x) series bimetal catalysts were prepared. Among all the catalysts, Ni_1Co_9 exhibited the best catalytic performance. The turnover frequency(TOF) related to the total number of atoms within the bimetallic nanoparticles reached 603.82 m L·mmol~(-1)·min~(-1) at 303 K. Furthermore, graphene was introduced as a supporting frame. The Ni_1Co_9@Graphene(Ni_1Co_9@GP) had a large surface area and high TOF, 25534 mL·mmol~(-1)·min~(-1), at 303 K. The Ni_1Co_9@GP exhibited efficient catalytic properties for H_2 generation in alkaline solution because of its high specific surface area. Moreover, the high kinetic isotope effect observed in the kinetic studies suggests that using D_2O led to the oxidative addition of an O–H bond of water in the rate-determining step.
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International Journal of Minerals Metallurgy and Materials
2021年12期
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