Synthetic routes of clean hydrocarbons fuels and oxygenates by catalytic conversions of carbon oxides

• Published in: Applied catalysis. B, Environmental Vol. 343; p. 123477
• Main Authors: Jung, Hyun Seung, Kim, Byeong Gi, Bae, Jong Wook
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.04.2024
• Subjects: C1 chemistry; Catalytic conversion of COx; Clean alternative fuels; COx hydrogenation; Oxygenates; Tandem reaction; Value-added petrochemicals; Catalytic conversion of COx; Oxygenates; C1 chemistry; COx hydrogenation; Value-added petrochemicals; Clean alternative fuels; Tandem reaction
• ISSN: 0926-3373; 1873-3883
• DOI: 10.1016/j.apcatb.2023.123477

The emission controls of carbon oxides (COx) are crucial to fulfill carbon neutrality, where COx is a useful building block for chemical synthesis. Therefore, COx conversions have been intensively investigated to reduce carbon emissions and to produce alternative fuels such as dimethyl ether, C5+ higher hydrocarbons, and higher alcohols by using heterogeneous catalysts. There are lots of advantages in catalytic conversion strategies, which can be largely affected by reaction conditions and types of catalysts. In the paper, catalytic activities and reaction mechanisms of COx conversions are briefly summarized to elucidate recent progresses of various catalytic reactions. Furthermore, the strategies to improve catalytic activity and stability as well as adjustments of final products selectivity are summarized. Various tandem reactions with well-designed hybridized catalysts to efficiently utilize CO/CO2 containing syngas are summarized to explain recent synthetic strategies for the productions of value-added hydrocarbon fuels and oxygenates by using environmentally benign catalytic processes. [Display omitted] •COx conversions to value-added hydrocarbons fuels and oxygenates are reviewed.•Selective hydrogenations of COx by various tandem reactions are summarized.•Well-designed hybridized catalysts with their preparation strategies are reviewed.