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Selective Transformation of CO2 and H2 into Lower Olefins over In2 O3 -ZnZrOx /SAPO-34 Bifunctional Catalysts.

Shanshan DangShenggang LiChengguang YangXinqing ChenXiaopeng LiLiangshu ZhongPeng GaoYuhan Sun
Published in: ChemSusChem (2019)
Because lower olefins (C2 = -C4 = ) are important bulk petrochemicals, their direct production from CO2 hydrogenation is highly attractive. However, the selectivity towards C2 = -C4 = by the modified Fischer-Tropsch synthesis is restricted to 56.7 % with high undesired methane selectivity. Here, a series of bifunctional catalysts containing In2 O3 -ZnZrOx oxides and various SAPO-34 zeolites with different crystal sizes (0.4-1.5 μm) and pore structures was developed for the production of lower olefins by CO2 hydrogenation. The C2 = -C4 = selectivity reached as high as 85 % among all hydrocarbons with very low CH4 selectivity of only 1 % at a CO2 conversion of 17 %. This demonstrated that the small crystal size, hierarchical pore structure, and appropriate amount of Brønsted acid sites of SAPO-34 endowed the bifunctional catalysts with high C2 = -C4 = selectivity. This work shows an efficient way for developing bifunctional catalysts for direct CO2 hydrogenation to lower olefins.
Keyphrases
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  • metal organic framework
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  • structural basis
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