The Ni/SDC catalysts were synthesized by microwave-assisted methods and investigated for methane oxidation. The catalyst showed steady production of syngas with high conversion of methane >90% at 700 °C. The high activity was attributed to nanoscale particle size, which provokes interaction between Ni and SDC easily. Besides, the co-microwave made catalyst showed the potential to produce syngas at 400–600 °C. The effects of synthesis parameters on the activity were further studied. The results demonstrated that the microwave-assisted synthesis is a simple way to make effective Ni/SDC catalysts that catalyze partial oxidation of methane toward syngas production and for Fuel Cell applications.

Ni / SDC催化剂是通过微波辅助方法合成的，并研究了甲烷的氧化作用。该催化剂显示出稳定的合成气产量，在700°C时甲烷的高转化率> 90％。高活性归因于纳米级粒径，它容易引起Ni和SDC之间的相互作用。此外，用微波制备的催化剂显示出在400–600°C下产生合成气的潜力。进一步研究了合成参数对活性的影响。结果表明，微波辅助合成是制备有效的Ni / SDC催化剂的简单方法，该催化剂可催化甲烷部分氧化以生产合成气并用于燃料电池。