Jinliang Cai scite author profile

A porous Ni–Cu alloy dendrite catalyst covered by Ni nanoparticles (Ni-np@NC) has been fabricated by an ultrafast and controllable strategy. The research results show that the morphology of the Ni–Cu alloy depends strongly on the Cu2+concentration. Moreover, the Ni-np@NC catalyst demonstrates excellent selectivity and activity toward the borohydride oxidation reaction (BOR). Furthermore, on the Ni-np@NC catalyst electrode, the overpotential merely requires 169 mV at a current density of 10 mA cm–2 for BOR, and the fuel efficiency may reach 70%. The direct borohydride fuel cell using the Ni-np@NC/C anode can export a maximum power density of 218 mW cm–2, much higher than that using the noble-based anode reported in the literature. The remarkable enhancement of Ni-np@NC catalyst performances is on the back of the unique morphology of porous dendrite covered by nanoparticles and the introduction of Cu.

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Boosting borohydride oxidation by control lattice-strain of Ni@NiP electrocatalyst with core-shell structure

Xie

Yang

et al. 2023

Applied Catalysis B: Environmental

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Succulent-plant-like Ni–Co alloy efficient catalysts for direct borohydride fuel cells

Cai

Chen

et al. 2023

Dalton Trans.

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Mg doping of NiMn-LDH with a three-dimensional porous morphology for an efficient supercapacitor

et al. 2023

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Jinliang Cai

Hierarchical leaf-shaped Ni@Zn bimetallic catalyst with high stability and selectivity for borohydride oxidation

Porous Ni–Cu Alloy Dendrite Anode Catalysts with High Activity and Selectivity for Direct Borohydride Fuel Cells

Boosting borohydride oxidation by control lattice-strain of Ni@NiP electrocatalyst with core-shell structure

Succulent-plant-like Ni–Co alloy efficient catalysts for direct borohydride fuel cells

Mg doping of NiMn-LDH with a three-dimensional porous morphology for an efficient supercapacitor

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