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W4285730259 abstract "Conversion of carbon dioxide (CO 2 ) into value-added fuels and chemicals can not only reduce the emission amount of CO 2 in the atmosphere and alleviate the greenhouse effect but also realize carbon recycling. Through hydrogenation with renewable hydrogen (H 2 ), CO 2 can be transformed into various hydrocarbons and oxygenates, including methanol, ethanol, methane and light olefins, etc. Recently, metal-organic frameworks (MOFs) have attracted extensive attention in the fields of adsorption, gas separation, and catalysis due to their high surface area, abundant metal sites, and tunable metal-support interface interaction. In CO 2 hydrogenation, MOFs are regarded as important supports or sacrificed precursors for the preparation of high-efficient catalysts, which can uniformly disperse metal nanoparticles (NPs) and enhance the interaction between metal and support to prevent sintering and aggregation of active metal species. This work summarizes the recent process on hydrogenation of CO 2 to methanol, methane and other C 2+ products over various MOFs-based catalysts, and it will provide some dues for the design of MOFs materials in energy-efficient conversion and utilization." @default.
W4285730259 created "2022-07-18" @default.
W4285730259 creator A5002713112 @default.
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W4285730259 date "2022-07-18" @default.
W4285730259 modified "2023-10-18" @default.
W4285730259 title "CO2 Hydrogenation on Metal-Organic Frameworks-Based Catalysts: A Mini Review" @default.
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W4285730259 cites W1986238480 @default.
W4285730259 cites W1995030777 @default.
W4285730259 cites W2018221287 @default.
W4285730259 cites W2022085591 @default.
W4285730259 cites W2051796629 @default.
W4285730259 cites W2053700726 @default.
W4285730259 cites W2084382872 @default.
W4285730259 cites W2090730279 @default.
W4285730259 cites W2090917962 @default.
W4285730259 cites W2092362068 @default.
W4285730259 cites W2102312674 @default.
W4285730259 cites W2135487064 @default.
W4285730259 cites W2296880544 @default.
W4285730259 cites W2309439796 @default.
W4285730259 cites W2333139765 @default.
W4285730259 cites W2547779722 @default.
W4285730259 cites W2579891120 @default.
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W4285730259 cites W2775247499 @default.
W4285730259 cites W2790114221 @default.
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W4285730259 cites W2805359383 @default.
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W4285730259 cites W2898240707 @default.
W4285730259 cites W2902876680 @default.
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W4285730259 cites W2994097603 @default.
W4285730259 cites W3014183028 @default.
W4285730259 cites W3022693671 @default.
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W4285730259 cites W3045292660 @default.
W4285730259 cites W3084660821 @default.
W4285730259 cites W3093793758 @default.
W4285730259 cites W3095409808 @default.
W4285730259 cites W3098140352 @default.
W4285730259 cites W3101807566 @default.
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W4285730259 cites W4206951031 @default.
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W4285730259 doi "https://doi.org/10.3389/fchem.2022.956223" @default.
W4285730259 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35923257" @default.
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