Intermetallic Ni 3 Ga 1 Catalyst for Efficient Ammonia Reforming of Light Alkane

Ammonia reforming of light alkane is conventionally employed for HCN production where coproduct H is burned for heating owing to the high reaction temperature (1200 °C) of such a highly endothermic process. Here, we show that a Ni Ga intermetallic compound (IMC) catalyst is highly efficient for such...

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Veröffentlicht in:	Journal of the American Chemical Society 2024-01, Vol.146 (4), p.2646-2653
Hauptverfasser:	Fadaeerayeni, Siavash, Lyu, Xingyi, Fang, Lingzhe, Wang, Peng, Wu, Jiachun, Li, Tao, Senftle, Thomas, Xiang, Yizhi
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container_title	Journal of the American Chemical Society
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creator	Fadaeerayeni, Siavash Lyu, Xingyi Fang, Lingzhe Wang, Peng Wu, Jiachun Li, Tao Senftle, Thomas Xiang, Yizhi
description	Ammonia reforming of light alkane is conventionally employed for HCN production where coproduct H is burned for heating owing to the high reaction temperature (1200 °C) of such a highly endothermic process. Here, we show that a Ni Ga intermetallic compound (IMC) catalyst is highly efficient for such a reaction, realizing efficient conversion of C -C alkanes at 575-750 °C. This makes it feasible for on-purpose CO -free H production assuming that ammonia, as an H carrier, is ubiquitously available from renewable energy. At 650 °C and an alkane/ammonia ratio of 1/2, ethane and propane conversion of ∼20% and methane conversion of 13% were obtained (with nearly 100% HCN selectivity for methane and ethane) over the unsupported Ni Ga IMC, which also shows high stability due to the absence of coke deposition. This breakthrough is achieved by employing a stoichiometric Ni Ga mixed oxalate solid solution as the precursor for the Ni Ga IMC.
doi_str_mv	10.1021/jacs.3c11981
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title	Intermetallic Ni 3 Ga 1 Catalyst for Efficient Ammonia Reforming of Light Alkane
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