SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4220778878> ?p ?o ?g. }

Showing items 1 to 100 of ±166 with 100 items per page.

W4220778878 endingPage "6574" @default.
W4220778878 startingPage "6566" @default.
W4220778878 abstract "We developed organocatalyst systems to promote the cleavage of stable C-H bonds, such as formyl, α-hydroxy, and benzylic C-H bonds, through a hydrogen atom transfer (HAT) process without the use of exogenous photosensitizers. An electronically tuned thiophosphoric acid, 7,7'-OMe-TPA, was assembled with substrate or co-catalyst N-heteroaromatics through hydrogen bonding and π-π interactions to form electron donor-acceptor (EDA) complexes. Photoirradiation of the EDA complex induced stepwise, sequential single-electron transfer (SET) processes to generate a HAT-active thiyl radical. The first SET was from the electron-rich naphthyl group of 7,7'-OMe-TPA to the protonated N-heteroaromatics and the second proton-coupled SET (PCET) from the thiophosphoric acid moiety of 7,7'-OMe-TPA to the resulting naphthyl radical cation. Spectroscopic studies and theoretical calculations characterized the stepwise SET process mediated by short-lived intermediates. This organocatalytic HAT system was applied to four different carbon-hydrogen (C-H) functionalization reactions, hydroxyalkylation and alkylation of N-heteroaromatics, acceptorless dehydrogenation of alcohols, and benzylation of imines, with high functional group tolerance." @default.
W4220778878 created "2022-04-03" @default.
W4220778878 creator A5026498329 @default.
W4220778878 creator A5038756662 @default.
W4220778878 creator A5043442763 @default.
W4220778878 creator A5053677822 @default.
W4220778878 creator A5055510050 @default.
W4220778878 creator A5060022030 @default.
W4220778878 creator A5061815797 @default.
W4220778878 creator A5088256090 @default.
W4220778878 creator A5088288669 @default.
W4220778878 date "2022-03-31" @default.
W4220778878 modified "2023-10-16" @default.
W4220778878 title "Identification of a Self-Photosensitizing Hydrogen Atom Transfer Organocatalyst System" @default.
W4220778878 cites W1842093545 @default.
W4220778878 cites W1989688131 @default.
W4220778878 cites W2002551641 @default.
W4220778878 cites W2002782651 @default.
W4220778878 cites W2035490193 @default.
W4220778878 cites W2045616965 @default.
W4220778878 cites W2050088367 @default.
W4220778878 cites W2057778358 @default.
W4220778878 cites W2066451204 @default.
W4220778878 cites W2085972813 @default.
W4220778878 cites W2091813312 @default.
W4220778878 cites W2097186155 @default.
W4220778878 cites W2140617505 @default.
W4220778878 cites W2264299621 @default.
W4220778878 cites W2314650327 @default.
W4220778878 cites W2319235272 @default.
W4220778878 cites W2397341779 @default.
W4220778878 cites W2504256884 @default.
W4220778878 cites W2559490771 @default.
W4220778878 cites W2585425647 @default.
W4220778878 cites W2775640610 @default.
W4220778878 cites W2777651827 @default.
W4220778878 cites W2786348549 @default.
W4220778878 cites W2792182372 @default.
W4220778878 cites W2793198966 @default.
W4220778878 cites W2797694955 @default.
W4220778878 cites W2800680133 @default.
W4220778878 cites W2883815639 @default.
W4220778878 cites W2885998187 @default.
W4220778878 cites W2897531901 @default.
W4220778878 cites W2924470661 @default.
W4220778878 cites W2946025733 @default.
W4220778878 cites W2969277544 @default.
W4220778878 cites W2978226643 @default.
W4220778878 cites W2980354581 @default.
W4220778878 cites W2994338436 @default.
W4220778878 cites W3006535187 @default.
W4220778878 cites W3010504693 @default.
W4220778878 cites W3011258776 @default.
W4220778878 cites W3011289834 @default.
W4220778878 cites W3013674006 @default.
W4220778878 cites W3016347392 @default.
W4220778878 cites W3022390667 @default.
W4220778878 cites W3023369437 @default.
W4220778878 cites W3038181398 @default.
W4220778878 cites W3045333712 @default.
W4220778878 cites W3048132712 @default.
W4220778878 cites W3092017152 @default.
W4220778878 cites W3092800358 @default.
W4220778878 cites W3093012684 @default.
W4220778878 cites W3111139781 @default.
W4220778878 cites W3114281686 @default.
W4220778878 cites W3119701139 @default.
W4220778878 cites W3120814756 @default.
W4220778878 cites W3126592395 @default.
W4220778878 cites W3133243300 @default.
W4220778878 cites W3137451150 @default.
W4220778878 cites W3160436526 @default.
W4220778878 cites W3164838999 @default.
W4220778878 cites W3169561413 @default.
W4220778878 cites W3175410770 @default.
W4220778878 cites W3185705662 @default.
W4220778878 cites W3188096523 @default.
W4220778878 cites W3189475088 @default.
W4220778878 cites W3200647796 @default.
W4220778878 cites W3206907345 @default.
W4220778878 cites W4205393187 @default.
W4220778878 cites W4206907435 @default.
W4220778878 cites W4213087678 @default.
W4220778878 cites W4220983731 @default.
W4220778878 cites W4226048930 @default.
W4220778878 doi "https://doi.org/10.1021/jacs.2c01705" @default.
W4220778878 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35357152" @default.
W4220778878 hasPublicationYear "2022" @default.
W4220778878 type Work @default.
W4220778878 citedByCount "16" @default.
W4220778878 countsByYear W42207788782022 @default.
W4220778878 countsByYear W42207788782023 @default.
W4220778878 crossrefType "journal-article" @default.
W4220778878 hasAuthorship W4220778878A5026498329 @default.
W4220778878 hasAuthorship W4220778878A5038756662 @default.
W4220778878 hasAuthorship W4220778878A5043442763 @default.
W4220778878 hasAuthorship W4220778878A5053677822 @default.
W4220778878 hasAuthorship W4220778878A5055510050 @default.