SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3154920447> ?p ?o ?g. }

Showing items 1 to 100 of ±158 with 100 items per page.

W3154920447 endingPage "4473" @default.
W3154920447 startingPage "4465" @default.
W3154920447 abstract "Zeolitic imidazolate frameworks (ZIFs) undergo pressure-induced phase transitions that are peculiar to each ZIF. The phase transition is associated with the rotation of the imidazolate, and it is accompanied by an increase of their pore openings, affecting ZIFs performance in separation processes. This phenomenon is known as the gate opening or the swing effect. Here we report the metal dependence of the ambient pressure and high pressure (HP) phases of ZIF-8(M) with M = Mg, Fe, and Zn, determined by using periodic Kohn–Sham density functional models. We show that the substitution of Zn with Mg or Fe has a big influence on the gate opening energy, which significantly decreases, an opposite trend than what was previously reported upon functionalization of the linker. The lowest energy phase of ZIF-8(Fe) is different than for ZIF-8(Mg) and ZIF-8(Zn), and its structure is significantly closer to the HP phase. Multireference wave function methods have been used to study the electronic structure of ZIF-8(Fe), confirming the metal center to be high spin (S = 2) divalent iron in antiferromagnetic coupling. The high-spin nature of the iron species coupled with a band gap in the visible light range makes ZIF-8(Fe) an interesting material for catalysis and photocatalysis." @default.
W3154920447 created "2021-04-26" @default.
W3154920447 creator A5004058924 @default.
W3154920447 creator A5021905321 @default.
W3154920447 date "2021-04-21" @default.
W3154920447 modified "2023-10-16" @default.
W3154920447 title "Modeling Metal Influence on the Gate Opening in ZIF-8 Materials" @default.
W3154920447 cites W1557339197 @default.
W3154920447 cites W1975019787 @default.
W3154920447 cites W1977822596 @default.
W3154920447 cites W1980223044 @default.
W3154920447 cites W1983282846 @default.
W3154920447 cites W1990563542 @default.
W3154920447 cites W1994098092 @default.
W3154920447 cites W1996680640 @default.
W3154920447 cites W1997641598 @default.
W3154920447 cites W2001312392 @default.
W3154920447 cites W2005596689 @default.
W3154920447 cites W2008997084 @default.
W3154920447 cites W2018664638 @default.
W3154920447 cites W2023271753 @default.
W3154920447 cites W2028182782 @default.
W3154920447 cites W2041531667 @default.
W3154920447 cites W2044591029 @default.
W3154920447 cites W2048246447 @default.
W3154920447 cites W2061101682 @default.
W3154920447 cites W2062665233 @default.
W3154920447 cites W2064577912 @default.
W3154920447 cites W2071750684 @default.
W3154920447 cites W2078146328 @default.
W3154920447 cites W2084406030 @default.
W3154920447 cites W2094145140 @default.
W3154920447 cites W2097764239 @default.
W3154920447 cites W2101081751 @default.
W3154920447 cites W2116859130 @default.
W3154920447 cites W2123752506 @default.
W3154920447 cites W2134002147 @default.
W3154920447 cites W2143981217 @default.
W3154920447 cites W2147397013 @default.
W3154920447 cites W2163535530 @default.
W3154920447 cites W2283114054 @default.
W3154920447 cites W2313722618 @default.
W3154920447 cites W2316124489 @default.
W3154920447 cites W2485842556 @default.
W3154920447 cites W2551837757 @default.
W3154920447 cites W2594164608 @default.
W3154920447 cites W2755762659 @default.
W3154920447 cites W2774955842 @default.
W3154920447 cites W2792853490 @default.
W3154920447 cites W2793443888 @default.
W3154920447 cites W2793853273 @default.
W3154920447 cites W2899840398 @default.
W3154920447 cites W2906148388 @default.
W3154920447 cites W2908573847 @default.
W3154920447 cites W2909074304 @default.
W3154920447 cites W2938838517 @default.
W3154920447 cites W2944731984 @default.
W3154920447 cites W2955853950 @default.
W3154920447 cites W2963330650 @default.
W3154920447 cites W2986804849 @default.
W3154920447 cites W2991188715 @default.
W3154920447 cites W3036860431 @default.
W3154920447 doi "https://doi.org/10.1021/acs.chemmater.1c00623" @default.
W3154920447 hasPublicationYear "2021" @default.
W3154920447 type Work @default.
W3154920447 sameAs 3154920447 @default.
W3154920447 citedByCount "11" @default.
W3154920447 countsByYear W31549204472021 @default.
W3154920447 countsByYear W31549204472022 @default.
W3154920447 countsByYear W31549204472023 @default.
W3154920447 crossrefType "journal-article" @default.
W3154920447 hasAuthorship W3154920447A5004058924 @default.
W3154920447 hasAuthorship W3154920447A5021905321 @default.
W3154920447 hasBestOaLocation W31549204471 @default.
W3154920447 hasConcept C106773901 @default.
W3154920447 hasConcept C111919701 @default.
W3154920447 hasConcept C121332964 @default.
W3154920447 hasConcept C143895478 @default.
W3154920447 hasConcept C147597530 @default.
W3154920447 hasConcept C147789679 @default.
W3154920447 hasConcept C150394285 @default.
W3154920447 hasConcept C152365726 @default.
W3154920447 hasConcept C155355069 @default.
W3154920447 hasConcept C159467904 @default.
W3154920447 hasConcept C161790260 @default.
W3154920447 hasConcept C171250308 @default.
W3154920447 hasConcept C178790620 @default.
W3154920447 hasConcept C179104552 @default.
W3154920447 hasConcept C179366358 @default.
W3154920447 hasConcept C181966813 @default.
W3154920447 hasConcept C185592680 @default.
W3154920447 hasConcept C191897082 @default.
W3154920447 hasConcept C192562407 @default.
W3154920447 hasConcept C26873012 @default.
W3154920447 hasConcept C2780557392 @default.
W3154920447 hasConcept C2780596747 @default.
W3154920447 hasConcept C27983359 @default.
W3154920447 hasConcept C41008148 @default.