Bo Zhao scite author profile

Direct synthesis of aromatics from syngas is a great challenge because of severe operating conditions and low yield of aromatics. Making this process more competitive than the MTA (methanol to aromatics) process will require high energy efficiency and low CO 2 emission. A combination of Na-Zn-Fe 5 C 2 and hierarchical HZSM-5 with uniform mesopores dramatically changed the product distribution of Fischer-Tropsch synthesis, leading to 51% aromatic selectivity under the stable stage with CO conversion >85%. C 12+ heavy hydrocarbons almost disappeared, and the catalyst showed good stability. The hierarchical zeolitic structure and Brønsted acidity of HZSM-5 could be precisely tuned by controlling the alkali treatment conditions and the degree of ion exchange. The appropriate density and strength of the Brønsted acid sites and the hierarchical pore structure of HZSM-5 endowed the catalyst with an unprecedented aromatic yield. This work shows a broad area for development for syngas conversion.Recently, a high-performance catalyst, Na-Zn-Fe 5 C 2 (termed as FeZnNa), was developed by the co-precipitation method (Figures S1-S3). 22 The molar weight ratio of

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Designing of highly selective and high-temperature endurable RWGS heterogeneous catalysts: recent advances and the future directions

Yang

Zhao³

et al. 2017

Journal of Energy Chemistry

238

171

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Highly selective palladium-copper bimetallic electrocatalysts for the electrochemical reduction of CO2 to CO

et al. 2016

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Bo Zhao

Direct Transformation of Syngas to Aromatics over Na-Zn-Fe5C2 and Hierarchical HZSM-5 Tandem Catalysts

Designing of highly selective and high-temperature endurable RWGS heterogeneous catalysts: recent advances and the future directions

Highly selective palladium-copper bimetallic electrocatalysts for the electrochemical reduction of CO2 to CO

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