NiCo alloy decorated on porous N-doped carbon derived from ZnCo-ZIF as highly efficient and magnetically recyclable catalyst for hydrogen evolution from ammonia borane

Hydrogen release from catalytic hydrolysis of solid-state ammonia borane (AB) with efficient catalysts is recognized as a safe and compelling strategy to satisfy the ever-increasing demand for clean energy. As a result, exploring extraordinary efficient and inexpensive catalysts for hydrogen generation from AB is urgently desired for practical application. Herein, with the help of bimetallic zeolitic imidazole frame-works (ZnCo-ZIF) template strategy, we successfully decorate non-noble NiCo alloy nanoparticles on ZnCo-ZIF derived porous nitrogen-doped carbon (NC) as a high-efficiency catalyst (NiCo-NC) for hydrogen generation from hydrolysis of AB. Befitting from the abundance of nitrogen in porous carbon, the powerful synergistic effect between Ni and Co and the synergistic effect between the metallic alloy and the supporting substrate, the as-prepared NiCo-NC nano-catalyst displays distinguished catalytic performance with a high total turnover frequency (TOF) of 35.2 mol(H2) mol(metal)(-1) min(-1)in 0.6 M NaOH medium at 298 K. Besides, this catalyst also exhibits good stability and magnetic separability. This work could provide a new insight for the construction of other bimetallic alloy anchoring on porous N-doped carbon carrier for further applications. (C) 2021 Elsevier Ltd. All rights reserved.

Automated summary

Efficient and inexpensive catalysts for hydrogen generation from solid-state ammonia borane (AB) hydrolysis are urgently desired for practical applications. Through the use of a bimetallic zeolitic imidazole framework (ZnCo-ZIF) template strategy, researchers successfully developed a high-efficiency NiCo-NC nano-catalyst for hydrogen production, showing remarkable catalytic performance and stability, and providing insights for further applications of bimetallic alloy anchoring on porous N-doped carbon carriers.