Fast Optimization of LiMgMnOx/La2O3 Catalysts for the Oxidative Coupling of Methane

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• 作者：Zhinian Li ; Lei He ; Shenliang Wang ; Wuzhong Yi ; Shihui Zou ; Liping Xiao ; Jie Fan
• 刊名：ACS Combinatorial Science
• 出版年：2017
• 出版时间：January 9, 2017
• 年：2017
• 卷：19
• 期：1
• 页码：15-24
• 全文大小：593K
• ISSN：2156-8944

文摘

The development of efficient catalyst for oxidative coupling of methane (OCM) reaction represents a grand challenge in direct conversion of methane into other useful products. Here, we reported that a newly developed combinatorial approach can be used for ultrafast optimization of La₂O₃-based multicomponent metal oxide catalysts in OCM reaction. This new approach integrated inkjet printing assisted synthesis (IJP-A) with multidimensional group testing strategy (m-GT) tactfully takes the place of conventionally high-throughput synthesis-and-screen experiment. Just within a week, 2048 formulated LiMgMnO_x-La₂O₃ catalysts in a 64·8·8·8·8 = 262 144 compositional space were fabricated by IJP-A in a four-round synthesis-and-screen process, and an optimized formulation has been successfully identified through only 4·8 = 32 times of tests via m-GT screening strategy. The screening process identifies the most promising ternary composition region is Li_0–0.48Mg_0–6.54Mn_0–0.62-La₁₀₀O_x with an external C₂ yield of 10.87% at 700 °C. The yield of C₂ is two times as high as the pure nano-La₂O₃. The good performance of the optimized catalyst formulation has been validated by the manual preparation, which further prove the effectiveness of the new combinatorial methodology in fast discovery of heterogeneous catalyst.