A robust Mo₂C-Ni/ZrO₂ (Glu) catalyst was prepared by a glucose-assisted incipient wetness impregnation with subsequent reduction carburization method using glucose as carbon source (Glu-IWI-RCG), which demonstrated higher catalytic activity and unexpected stability in steam-CO₂ dual reforming of methane (SCRM) for syngas production comparing with traditional Mo₂C-Ni/ZrO₂ (Met) catalyst prepared by conventional IWI followed by reduction carburization method using methane as metal dispersion promoting agent and carbon source. Various characterization techniques were employed to reveal the origin of its higher catalytic activity and unexpectedly higher stability in SCRM. The unexpected coke resistance of Mo₂C-Ni/ZrO₂ (Glu) allows it to be a practical candidate for syngas production via SCRM reaction.

葡萄糖辅助初湿浸渍法，以葡萄糖为碳源（Glu-IWI-RCG），采用还原还原渗碳法制备了一种稳健的Mo ₂ C-Ni / ZrO ₂（Glu）催化剂，具有较高的催化活性和出乎意料的稳定性。与传统IWI制备的传统Mo ₂ C-Ni / ZrO ₂（Met）催化剂相比较，然后使用甲烷作为金属分散促进剂和碳源的还原渗碳法，在蒸汽-CO ₂甲烷双重整（SCRM）中用于合成气生产。采用了各种表征技术来揭示其更高的催化活性和出乎意料的更高的SCRM稳定性的起源。Mo的出乎意料的耐焦炭性₂ C-Ni / ZrO ₂（Glu）使其成为通过SCRM反应生产合成气的实际候选者。