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• W4200485186 abstract "Metal-organic frameworks (MOFs) have emerged as versatile candidates of interest in heterogeneous catalysis. Recent research and developments with MOFs positively endorse their role as catalysts in generating invaluable organic compounds. To harness the full potential of MOFs in value-added organic transformation, a comprehensive look at how these materials are likely to involve in the catalytic processes is essential. Mainstays of MOFs such as metal nodes, linkers, encapsulation materials, and enveloped structures tend to produce capable catalytic active sites that offer solutions to reduce human efforts in developing new organic reactions. The main advantages of choosing MOFs as reusable catalysts are the flexible and robust skeleton, regular porosity, high pore volume, and accessible synthesis accompanied with cost-effectiveness. As hosts for active metals, sole MOFs, modified MOFs, and MOFs have made remarkable advances as solid catalysts. The extensive exploration of the MOFs possibly led to their fast adoption in fabricating new biological molecules such as pyridines, quinolines, quinazolinones, imines, and their derivatives. This review covers the varied MOFs and their catalytic properties in facilitating the selective formation of the product organic moieties and interprets MOF’s property responsible for their elegant performance." @default.
• W4200485186 created "2021-12-31" @default.
• W4200485186 creator A5003030314 @default.
• W4200485186 creator A5049521250 @default.
• W4200485186 date "2021-12-17" @default.
• W4200485186 modified "2023-10-15" @default.
• W4200485186 title "A Review on Metal-Organic Frameworks as Congenial Heterogeneous Catalysts for Potential Organic Transformations" @default.
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• W4200485186 cites W1967109824 @default.
• W4200485186 cites W1968780456 @default.
• W4200485186 cites W1982371517 @default.
• W4200485186 cites W1986031677 @default.
• W4200485186 cites W1986356599 @default.
• W4200485186 cites W1993146835 @default.
• W4200485186 cites W1997159316 @default.
• W4200485186 cites W1999937609 @default.
• W4200485186 cites W2004550299 @default.
• W4200485186 cites W2019650129 @default.
• W4200485186 cites W2024065946 @default.
• W4200485186 cites W2027223952 @default.
• W4200485186 cites W2028888941 @default.
• W4200485186 cites W2038068405 @default.
• W4200485186 cites W2038816280 @default.
• W4200485186 cites W2042302296 @default.
• W4200485186 cites W2045418790 @default.
• W4200485186 cites W2056127514 @default.
• W4200485186 cites W2057523617 @default.
• W4200485186 cites W2063534190 @default.
• W4200485186 cites W2084761995 @default.
• W4200485186 cites W2090596716 @default.
• W4200485186 cites W2093182007 @default.
• W4200485186 cites W2094167673 @default.
• W4200485186 cites W2108504105 @default.
• W4200485186 cites W2126614234 @default.
• W4200485186 cites W2130283800 @default.
• W4200485186 cites W2141939342 @default.
• W4200485186 cites W2153685870 @default.
• W4200485186 cites W2265113727 @default.
• W4200485186 cites W2295884958 @default.
• W4200485186 cites W2296088886 @default.
• W4200485186 cites W2318964095 @default.
• W4200485186 cites W2336249108 @default.
• W4200485186 cites W2340747826 @default.
• W4200485186 cites W2471275139 @default.
• W4200485186 cites W2477343743 @default.
• W4200485186 cites W2528956049 @default.
• W4200485186 cites W2556371294 @default.
• W4200485186 cites W2571824444 @default.
• W4200485186 cites W2586554840 @default.
• W4200485186 cites W2590120241 @default.
• W4200485186 cites W2601888697 @default.
• W4200485186 cites W2605613000 @default.
• W4200485186 cites W2618127528 @default.
• W4200485186 cites W2660678305 @default.
• W4200485186 cites W2728364773 @default.
• W4200485186 cites W2762356823 @default.
• W4200485186 cites W2765836938 @default.
• W4200485186 cites W2770576365 @default.
• W4200485186 cites W2770720622 @default.
• W4200485186 cites W2773918169 @default.
• W4200485186 cites W2784613324 @default.
• W4200485186 cites W2784979754 @default.
• W4200485186 cites W2790308498 @default.
• W4200485186 cites W2791594724 @default.
• W4200485186 cites W2792288416 @default.
• W4200485186 cites W2794728674 @default.
• W4200485186 cites W2800607645 @default.
• W4200485186 cites W2809675308 @default.
• W4200485186 cites W2810505935 @default.
• W4200485186 cites W2883797962 @default.
• W4200485186 cites W2888364779 @default.
• W4200485186 cites W2902064857 @default.
• W4200485186 cites W2906024228 @default.
• W4200485186 cites W2910972450 @default.
• W4200485186 cites W2914377205 @default.
• W4200485186 cites W2916338749 @default.
• W4200485186 cites W2922523431 @default.
• W4200485186 cites W2952351259 @default.
• W4200485186 cites W2962554820 @default.
• W4200485186 cites W2985488130 @default.
• W4200485186 cites W2998334946 @default.
• W4200485186 cites W3005174850 @default.
• W4200485186 cites W3016214421 @default.
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• W4200485186 cites W3099149672 @default.
• W4200485186 cites W3100030022 @default.
• W4200485186 cites W3119848303 @default.
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• W4200485186 doi "https://doi.org/10.3389/fchem.2021.747615" @default.
• W4200485186 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34976945" @default.
• W4200485186 hasPublicationYear "2021" @default.
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