2023
DOI: 10.1002/cplu.202300301
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CO2 Hydrogenation to Gasoline and Aromatics: Mechanistic and Predictive Insights from DFT, DRIFTS and Machine Learning

Abstract: The emission of CO2 from fossil fuels is the largest driver of global climate change. To realize the target of a carbon‐neutrality by 2050, CO2 capture and utilization is crucial. The efficient conversion of CO2 to C5+ gasoline and aromatics remains elusive mainly due to CO2 thermodynamic stability and the high energy barrier of the C‐C coupling step. Herein, advances in mechanistic understanding via Diffuse Reflectance Infrared Fourier Transform Spectroscopy (DRIFTS), density functional theory (DFT), and micr… Show more

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Cited by 4 publications
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“…Drawing upon these insights, Table 2 encapsulates the array of advantages that thermal methods hold over their electrochemical, photocatalytic, biochemical, and chemo-enzymatic counterparts. Recently, the literature documents the generation of liquid fuels, aromatics, and olefin compounds via the thermal catalytic hydrogenation process applied to CO 2 [12,46,47]. In addition, studies indicate that the inclusion of structured zeolites in thermo-catalytic hydrogenation processes has the potential to enhance the selectivity of hydrocarbon prod-ucts [48,49].…”
Section: Introductionmentioning
confidence: 99%
“…Drawing upon these insights, Table 2 encapsulates the array of advantages that thermal methods hold over their electrochemical, photocatalytic, biochemical, and chemo-enzymatic counterparts. Recently, the literature documents the generation of liquid fuels, aromatics, and olefin compounds via the thermal catalytic hydrogenation process applied to CO 2 [12,46,47]. In addition, studies indicate that the inclusion of structured zeolites in thermo-catalytic hydrogenation processes has the potential to enhance the selectivity of hydrocarbon prod-ucts [48,49].…”
Section: Introductionmentioning
confidence: 99%