石墨烯
材料科学
催化作用
甲酸
纳米复合材料
氧化物
氢
制氢
化学工程
燃料电池
色散(光学)
金属
无机化学
纳米技术
冶金
化学
有机化学
工程类
物理
光学
作者
Jun‐Min Yan,Zhili Wang,Lin Gu,Sijia Li,Hongli Wang,Weitao Zheng,Qing Jiang
标识
DOI:10.1002/aenm.201500107
摘要
The safe and efficient storage and release of hydrogen are widely recognized as the main challenges for the establishment of a fuel‐cell‐based hydrogen economy. Formic acid (FA) has great potential as a safe and convenient source of hydrogen for fuel cells. Despite tremendous efforts, the development of heterogeneous catalysts with high activity and relatively low cost remains a major challenge. The synthesis of AuPd–MnO x nanocomposite immobilized on ZIF‐8–reduced‐graphene‐oxide (ZIF‐8–rGO) bi‐support by a wet‐chemical method is reported here. Interestingly, the resultant AuPd–MnO x /ZIF‐8–rGO shows excellent catalytic activity for the generation of hydrogen from FA, and the initial turnover frequency (TOF) reaches a highest value of 382.1 mol H 2 mol catalyst −1 h −1 without any additive at 298 K. This good performance of AuPd–MnO x /ZIF‐8–rGO results from the modified electronic structure of Pd in the AuPd–MnO x /ZIF‐8–rGO composite, the small size and high dispersion of the AuPd–MnO x nanocomposite, and also the strong metal‐support interaction between the AuPd–MnO x and ZIF‐8–rGO bi‐support.
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