SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2956355514> ?p ?o ?g. }

Showing items 1 to 100 of ±162 with 100 items per page.

W2956355514 endingPage "10096" @default.
W2956355514 startingPage "10084" @default.
W2956355514 abstract "The synthesis and characterization of a mixed ligand metal–organic framework (MOF) with good thermal and chemical stability, {[Co(BDC)(L)·2H2O]·xG}n (CoMOF-2), involving an aromatic dicarboxylate (H2BDC = 1,4-benzenedicarboxylic acid) and an acyl-decorated N-donor linker [L = (E)-N′-(pyridin-4-ylmethylene) isonicotinohydrazide] by various physicochemical techniques, including Single crystal X-Ray Diffraction (SXRD), are reported. The MOF showed a good affinity for CO2 capture, and Grand Canonical Monte Carlo simulation studies exposed strong interactions of CO2 with the functionalized N-donor ligand of the framework. CoMOF-2 and KI act as an efficient binary catalyst for the sustainable utilization of CO2 with spiro-epoxy oxindole to spirocyclic carbonate under ambient conditions. Notably, herein we report MOF-based catalysis for the cycloaddition of oxindole-based epoxides with CO2 for harvesting new spirocyclic carbonates. Interestingly, we could isolate and crystallize six of the spirocyclic carbonate products, and the structure of the newly synthesized molecules has been established by SXRD analysis. We present a plausible proposed catalytic mechanism through activation of the epoxide ring by the Lewis acidic/basic sites present on the framework surface that is validated by molecular modeling." @default.
W2956355514 created "2019-07-23" @default.
W2956355514 creator A5012471903 @default.
W2956355514 creator A5019805460 @default.
W2956355514 creator A5044882411 @default.
W2956355514 creator A5057113595 @default.
W2956355514 creator A5059703587 @default.
W2956355514 creator A5067213335 @default.
W2956355514 creator A5081504556 @default.
W2956355514 date "2019-07-19" @default.
W2956355514 modified "2023-09-26" @default.
W2956355514 title "Cycloaddition of CO<sub>2</sub> with an Epoxide-Bearing Oxindole Scaffold by a Metal–Organic Framework-Based Heterogeneous Catalyst under Ambient Conditions" @default.
W2956355514 cites W1799259853 @default.
W2956355514 cites W1833278833 @default.
W2956355514 cites W1954127367 @default.
W2956355514 cites W1974230931 @default.
W2956355514 cites W1982731022 @default.
W2956355514 cites W1995004090 @default.
W2956355514 cites W1995443810 @default.
W2956355514 cites W1998378708 @default.
W2956355514 cites W2002799357 @default.
W2956355514 cites W2022562953 @default.
W2956355514 cites W2026167394 @default.
W2956355514 cites W2047182876 @default.
W2956355514 cites W2050863372 @default.
W2956355514 cites W2069537362 @default.
W2956355514 cites W2072701796 @default.
W2956355514 cites W2079486584 @default.
W2956355514 cites W2083022810 @default.
W2956355514 cites W2091161882 @default.
W2956355514 cites W2093310723 @default.
W2956355514 cites W2108868631 @default.
W2956355514 cites W2111920806 @default.
W2956355514 cites W2137073195 @default.
W2956355514 cites W2138511470 @default.
W2956355514 cites W2151483620 @default.
W2956355514 cites W2154594399 @default.
W2956355514 cites W2159278761 @default.
W2956355514 cites W2161885649 @default.
W2956355514 cites W2257384705 @default.
W2956355514 cites W2283132205 @default.
W2956355514 cites W2290797056 @default.
W2956355514 cites W2313363323 @default.
W2956355514 cites W2317011810 @default.
W2956355514 cites W2319195884 @default.
W2956355514 cites W2319442421 @default.
W2956355514 cites W2325339829 @default.
W2956355514 cites W2333890779 @default.
W2956355514 cites W2469865465 @default.
W2956355514 cites W2523412339 @default.
W2956355514 cites W2532267890 @default.
W2956355514 cites W2533049456 @default.
W2956355514 cites W2534276494 @default.
W2956355514 cites W2556362686 @default.
W2956355514 cites W2556371294 @default.
W2956355514 cites W2558591997 @default.
W2956355514 cites W2560228376 @default.
W2956355514 cites W2586693328 @default.
W2956355514 cites W2587301581 @default.
W2956355514 cites W2604493547 @default.
W2956355514 cites W2607412255 @default.
W2956355514 cites W2610608721 @default.
W2956355514 cites W2615123452 @default.
W2956355514 cites W2617009200 @default.
W2956355514 cites W2737439951 @default.
W2956355514 cites W2737720098 @default.
W2956355514 cites W2767162993 @default.
W2956355514 cites W2779937803 @default.
W2956355514 cites W2790308498 @default.
W2956355514 cites W2790798973 @default.
W2956355514 cites W2791049246 @default.
W2956355514 cites W2792081468 @default.
W2956355514 cites W2792739745 @default.
W2956355514 cites W2795584437 @default.
W2956355514 cites W2804207556 @default.
W2956355514 cites W2804999527 @default.
W2956355514 cites W2882984918 @default.
W2956355514 cites W2883224382 @default.
W2956355514 cites W2887518432 @default.
W2956355514 cites W2889718448 @default.
W2956355514 cites W2890817174 @default.
W2956355514 cites W2907833823 @default.
W2956355514 cites W2908123039 @default.
W2956355514 cites W2915120481 @default.
W2956355514 cites W2915668383 @default.
W2956355514 cites W2936431072 @default.
W2956355514 cites W2949236218 @default.
W2956355514 doi "https://doi.org/10.1021/acs.inorgchem.9b01234" @default.
W2956355514 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31322345" @default.
W2956355514 hasPublicationYear "2019" @default.
W2956355514 type Work @default.
W2956355514 sameAs 2956355514 @default.
W2956355514 citedByCount "62" @default.
W2956355514 countsByYear W29563555142019 @default.
W2956355514 countsByYear W29563555142020 @default.
W2956355514 countsByYear W29563555142021 @default.
W2956355514 countsByYear W29563555142022 @default.
W2956355514 countsByYear W29563555142023 @default.