FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4385327462> ?p ?o ?g. }

• W4385327462 endingPage "122822" @default.
• W4385327462 startingPage "122822" @default.
• W4385327462 abstract "In this study, a new functionalized metal-organic framework (MOF) [Co(BDCNH2)@Schiff-Base-Pd(II)] catalyst was synthesized using the post-synthetic modification of the Co(BDCNH2). The target MOF complex was formed by adding palladium chloride while binding di(pyridin-2-yl)methanone via a basic Schiff base formation reaction. The synthesized functionalized MOF was utilized as a highly efficient multifunctional catalyst in the Sonogashira carbonylative coupling reaction. Various analytical techniques elucidated the catalyst, including N2 isotherms, XPS, EDX FT-IR, XRD, SEM, ICP-OES, and TG-DTA. Notably, the synthesized Nano catalyst is reusable up to seven times with no considerable catalytic efficiency loss, high product yields, ease of extraction, short reaction times, and a wide range of substrates make this procedure environmentally friendly." @default.
• W4385327462 created "2023-07-28" @default.
• W4385327462 creator A5039241230 @default.
• W4385327462 creator A5041119331 @default.
• W4385327462 creator A5046874911 @default.
• W4385327462 creator A5056103276 @default.
• W4385327462 creator A5076407137 @default.
• W4385327462 date "2023-10-01" @default.
• W4385327462 modified "2023-10-12" @default.
• W4385327462 title "Synthesizing and post-synthetically modifying metal-organic frameworks (Co(BDC)-NH2) for carbonylative sonogashira coupling reaction" @default.
• W4385327462 cites W1583136066 @default.
• W4385327462 cites W189862414 @default.
• W4385327462 cites W1968550228 @default.
• W4385327462 cites W1975670947 @default.
• W4385327462 cites W1981316754 @default.
• W4385327462 cites W1985769524 @default.
• W4385327462 cites W2026539556 @default.
• W4385327462 cites W2044571535 @default.
• W4385327462 cites W2055345420 @default.
• W4385327462 cites W2062880976 @default.
• W4385327462 cites W2081892602 @default.
• W4385327462 cites W2098611656 @default.
• W4385327462 cites W2119529042 @default.
• W4385327462 cites W2128018881 @default.
• W4385327462 cites W2137129354 @default.
• W4385327462 cites W2138177542 @default.
• W4385327462 cites W2161037600 @default.
• W4385327462 cites W2444676782 @default.
• W4385327462 cites W2467222707 @default.
• W4385327462 cites W2572881921 @default.
• W4385327462 cites W2573614973 @default.
• W4385327462 cites W2575724262 @default.
• W4385327462 cites W2607812751 @default.
• W4385327462 cites W2740381273 @default.
• W4385327462 cites W2767961835 @default.
• W4385327462 cites W2773277068 @default.
• W4385327462 cites W2788093959 @default.
• W4385327462 cites W2803519394 @default.
• W4385327462 cites W2807025760 @default.
• W4385327462 cites W2888020132 @default.
• W4385327462 cites W2951209800 @default.
• W4385327462 cites W2951766872 @default.
• W4385327462 cites W2952137862 @default.
• W4385327462 cites W2953151130 @default.
• W4385327462 cites W2957431360 @default.
• W4385327462 cites W2967949010 @default.
• W4385327462 cites W2997089896 @default.
• W4385327462 cites W3001810403 @default.
• W4385327462 cites W3003324733 @default.
• W4385327462 cites W3004787932 @default.
• W4385327462 cites W3005258746 @default.
• W4385327462 cites W3034995587 @default.
• W4385327462 cites W3080968729 @default.
• W4385327462 cites W3092219233 @default.
• W4385327462 cites W3133067760 @default.
• W4385327462 cites W3201514902 @default.
• W4385327462 cites W4206826113 @default.
• W4385327462 cites W4251148645 @default.
• W4385327462 cites W4284971850 @default.
• W4385327462 cites W4297473254 @default.
• W4385327462 cites W4297965147 @default.
• W4385327462 cites W4303649265 @default.
• W4385327462 cites W4306953368 @default.
• W4385327462 cites W4320921228 @default.
• W4385327462 cites W4324122349 @default.
• W4385327462 cites W4361222175 @default.
• W4385327462 cites W4379618275 @default.
• W4385327462 doi "https://doi.org/10.1016/j.jorganchem.2023.122822" @default.
• W4385327462 hasPublicationYear "2023" @default.
• W4385327462 type Work @default.
• W4385327462 citedByCount "3" @default.
• W4385327462 countsByYear W43853274622023 @default.
• W4385327462 crossrefType "journal-article" @default.
• W4385327462 hasAuthorship W4385327462A5039241230 @default.
• W4385327462 hasAuthorship W4385327462A5041119331 @default.
• W4385327462 hasAuthorship W4385327462A5046874911 @default.
• W4385327462 hasAuthorship W4385327462A5056103276 @default.
• W4385327462 hasAuthorship W4385327462A5076407137 @default.
• W4385327462 hasConcept C150394285 @default.
• W4385327462 hasConcept C161790260 @default.
• W4385327462 hasConcept C175583648 @default.
• W4385327462 hasConcept C178790620 @default.
• W4385327462 hasConcept C179104552 @default.
• W4385327462 hasConcept C179366358 @default.
• W4385327462 hasConcept C185592680 @default.
• W4385327462 hasConcept C21951064 @default.
• W4385327462 hasConcept C48424934 @default.
• W4385327462 hasConcept C502130503 @default.
• W4385327462 hasConcept C544153396 @default.
• W4385327462 hasConcept C61442700 @default.
• W4385327462 hasConceptScore W4385327462C150394285 @default.
• W4385327462 hasConceptScore W4385327462C161790260 @default.
• W4385327462 hasConceptScore W4385327462C175583648 @default.
• W4385327462 hasConceptScore W4385327462C178790620 @default.
• W4385327462 hasConceptScore W4385327462C179104552 @default.
• W4385327462 hasConceptScore W4385327462C179366358 @default.
• W4385327462 hasConceptScore W4385327462C185592680 @default.
• W4385327462 hasConceptScore W4385327462C21951064 @default.

• next