SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2264178839> ?p ?o ?g. }

Showing items 1 to 100 of ±134 with 100 items per page.

W2264178839 endingPage "482" @default.
W2264178839 startingPage "471" @default.
W2264178839 abstract "First reported in 1997, azuliporphyrins have proven to be a truly remarkable family of porphyrin analogues. In this system, although the porphyrin framework is retained, one of the pyrrolic moieties has been replaced by an azulene unit. Azulene favors electrophilic substitution at the 1,3-positions, which are structurally analogous to the α-positions in pyrrole, and this property facilitates the construction of azulene-containing porphyrinoid systems. Azuliporphyrins were first prepared from tripyrranes and 1,3-azulenedicarbaldehyde using a 3 + 1 variant on the MacDonald reaction. Subsequently, azulenes were shown to react with acetoxymethylpyrroles under acidic conditions to generate azulitripyrranes that could be utilized in a back-to-front 3 + 1 methodology to form azuliporphyrins and related heteroporphyrinoids. In addition, the favorability of azulenes toward 1,3-substitution was applied to one-pot syntheses of tetraarylazuliporphyrins and calix[4]azulenes. Azuliporphyrins have significant diatropic character that is greatly enhanced upon protonation. They have been shown to form organometallic complexes with Ni(II), Pd(II), Pt(II), Ir(III), Rh(III), and Ru(II) and undergo selective oxidations at the internal carbon with copper(II) or silver(I) salts to afford 21-oxyazuliporphyrins. In addition, oxidative ring contractions readily occur under basic conditions in the presence of peroxides to give benzocarbaporphyrins, and this reactivity provides access to tetraarylbenzocarbaporphyrins and their organometallic derivatives. A diazulenylmethane dialdehyde has been shown to react with dipyrrylmethanes in the presence of HCl or HBr to give diazuliporphyrins that were isolated in a monoprotonated form, and metalation with palladium(II) acetate afforded a stable zwitterionic palladium(II) complex. Equally intriguing dicarbaporphyrinoids incorporating indene and azulene rings have been reported, and these systems exhibit significant aromatic character. Recent studies have demonstrated that calixazulenes form supramolecular complexes with quaternary ammonium salts and afford a 1:1 complex with C60. In addition, conjugated structures have been prepared from calixazulenes that are structurally related to quatyrin, the theoretically important hydrocarbon analogue of the porphyrins. Examples of expanded azuliporphyrinoids have also been described. These azulene-containing porphyrinoids exhibit unique and complex reactivity that compares favorably with better studied porphyrin analogue systems such as the N-confused porphyrins, and azuliporphyrin derivatives show promise in the development of new catalytic systems." @default.
W2264178839 created "2016-06-24" @default.
W2264178839 creator A5066014054 @default.
W2264178839 date "2016-02-08" @default.
W2264178839 modified "2023-10-18" @default.
W2264178839 title "Out of the Blue! Azuliporphyrins and Related Carbaporphyrinoid Systems" @default.
W2264178839 cites W1266794872 @default.
W2264178839 cites W1841230898 @default.
W2264178839 cites W1846858789 @default.
W2264178839 cites W1884496803 @default.
W2264178839 cites W1975577323 @default.
W2264178839 cites W1979309696 @default.
W2264178839 cites W1980702699 @default.
W2264178839 cites W1981907981 @default.
W2264178839 cites W1995835241 @default.
W2264178839 cites W1998017007 @default.
W2264178839 cites W1999517083 @default.
W2264178839 cites W2001929588 @default.
W2264178839 cites W2004548207 @default.
W2264178839 cites W2008821571 @default.
W2264178839 cites W2009235132 @default.
W2264178839 cites W2011233474 @default.
W2264178839 cites W2011451734 @default.
W2264178839 cites W2019791034 @default.
W2264178839 cites W2028987045 @default.
W2264178839 cites W2033358261 @default.
W2264178839 cites W2034911069 @default.
W2264178839 cites W2035663075 @default.
W2264178839 cites W2036386691 @default.
W2264178839 cites W2037192540 @default.
W2264178839 cites W2042239958 @default.
W2264178839 cites W2051556766 @default.
W2264178839 cites W2054416439 @default.
W2264178839 cites W2055929573 @default.
W2264178839 cites W2056655073 @default.
W2264178839 cites W2058950425 @default.
W2264178839 cites W2067709249 @default.
W2264178839 cites W2071859708 @default.
W2264178839 cites W2073151959 @default.
W2264178839 cites W2073766658 @default.
W2264178839 cites W2085723963 @default.
W2264178839 cites W2104744609 @default.
W2264178839 cites W2107145271 @default.
W2264178839 cites W2128803629 @default.
W2264178839 cites W2150298101 @default.
W2264178839 cites W2153656841 @default.
W2264178839 cites W2156421617 @default.
W2264178839 cites W2159882285 @default.
W2264178839 cites W2168959721 @default.
W2264178839 cites W2168974145 @default.
W2264178839 cites W2255139675 @default.
W2264178839 cites W2313645014 @default.
W2264178839 cites W2321461434 @default.
W2264178839 cites W2322207414 @default.
W2264178839 cites W2327042286 @default.
W2264178839 cites W2330257194 @default.
W2264178839 cites W2517471465 @default.
W2264178839 cites W2949995583 @default.
W2264178839 cites W4241274892 @default.
W2264178839 cites W4241558369 @default.
W2264178839 doi "https://doi.org/10.1021/acs.accounts.5b00523" @default.
W2264178839 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26853353" @default.
W2264178839 hasPublicationYear "2016" @default.
W2264178839 type Work @default.
W2264178839 sameAs 2264178839 @default.
W2264178839 citedByCount "98" @default.
W2264178839 countsByYear W22641788392016 @default.
W2264178839 countsByYear W22641788392017 @default.
W2264178839 countsByYear W22641788392018 @default.
W2264178839 countsByYear W22641788392019 @default.
W2264178839 countsByYear W22641788392020 @default.
W2264178839 countsByYear W22641788392021 @default.
W2264178839 countsByYear W22641788392022 @default.
W2264178839 countsByYear W22641788392023 @default.
W2264178839 crossrefType "journal-article" @default.
W2264178839 hasAuthorship W2264178839A5066014054 @default.
W2264178839 hasConcept C142724271 @default.
W2264178839 hasConcept C145148216 @default.
W2264178839 hasConcept C155647269 @default.
W2264178839 hasConcept C161790260 @default.
W2264178839 hasConcept C178790620 @default.
W2264178839 hasConcept C185592680 @default.
W2264178839 hasConcept C204787440 @default.
W2264178839 hasConcept C2775855785 @default.
W2264178839 hasConcept C2776910235 @default.
W2264178839 hasConcept C2777965246 @default.
W2264178839 hasConcept C2779400197 @default.
W2264178839 hasConcept C2779480358 @default.
W2264178839 hasConcept C2781203326 @default.
W2264178839 hasConcept C30095370 @default.
W2264178839 hasConcept C502130503 @default.
W2264178839 hasConcept C71924100 @default.
W2264178839 hasConcept C75473681 @default.
W2264178839 hasConceptScore W2264178839C142724271 @default.
W2264178839 hasConceptScore W2264178839C145148216 @default.
W2264178839 hasConceptScore W2264178839C155647269 @default.
W2264178839 hasConceptScore W2264178839C161790260 @default.
W2264178839 hasConceptScore W2264178839C178790620 @default.