Realizing efficient carbon dioxide hydrogenation to liquid hydrocarbons by tandem catalysis design

IF 22.2 Q1 CHEMISTRY, MULTIDISCIPLINARY
Xinhua Gao , Thachapan Atchimarungsri , Qingxiang Ma , Tian-Sheng Zhao , Noritatsu Tsubaki
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引用次数: 19

Abstract

Carbon dioxide (CO2) hydrogenation to value added hydrocarbons remains a promising path to valorize the detrimental CO2 from waste to useful energy resources and chemicals. Much progress has been made in the catalytic transformation of CO2, via hydrogenation, to short-chain products such as methane, methanol, formic acid, and lower olefins (C2−C4). However, the selective transformation of CO2 into long-chain hydrocarbons (C5+) is still a great challenge and thus has seen few successful reports. In this perspective, we review the advances in the catalytic hydrogenation of CO2 to liquid hydrocarbons, such as gasoline, jet fuel, diesel fuel, and aromatics. Emphasis is placed on strategies of tandem catalyst designs and reaction mechanisms and their influence on C–O bond cleaving and C–C coupling. Also, the fundamental factors influencing the performance of catalysts and C–C coupling mechanism that can improve selectivity for long-chain hydrocarbons through different routes are outlined. Finally, we present an outlook that summarizes the research challenges and opportunities associated with the hydrogenation of CO2 to liquid hydrocarbons.

Abstract Image

采用串联催化设计实现二氧化碳高效加氢制液态烃
将废物中的有害二氧化碳转化为有用的能源和化学品,二氧化碳加氢制有价值的碳氢化合物仍然是一条有前途的途径。在二氧化碳加氢催化转化为短链产物如甲烷、甲醇、甲酸和低烯烃(C2−C4)方面取得了很大进展。然而,二氧化碳选择性转化为长链烃(C5+)仍然是一个巨大的挑战,因此很少有成功的报道。在这方面,我们综述了二氧化碳催化加氢制液态烃的研究进展,如汽油、喷气燃料、柴油燃料和芳烃。重点介绍了串联催化剂的设计策略、反应机理及其对碳氧键裂解和碳碳偶联的影响。概述了影响催化剂性能的基本因素和通过不同途径提高长链烃选择性的C-C偶联机理。最后,对CO2加氢制液态烃的研究面临的挑战和机遇进行了展望。
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来源期刊
EnergyChem
EnergyChem Multiple-
CiteScore
40.80
自引率
2.80%
发文量
23
审稿时长
40 days
期刊介绍: EnergyChem, a reputable journal, focuses on publishing high-quality research and review articles within the realm of chemistry, chemical engineering, and materials science with a specific emphasis on energy applications. The priority areas covered by the journal include:Solar energy,Energy harvesting devices,Fuel cells,Hydrogen energy,Bioenergy and biofuels,Batteries,Supercapacitors,Electrocatalysis and photocatalysis,Energy storage and energy conversion,Carbon capture and storage
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