SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4206191458> ?p ?o ?g. }

Showing items 1 to 100 of ±144 with 100 items per page.

W4206191458 endingPage "1033" @default.
W4206191458 startingPage "1023" @default.
W4206191458 abstract "The first broad spectrum investigation into the photoenolization/Diels-Alder (PEDA) sequence was carried out using M06-2X/6-31+G(d,p) in conjunction with SMD solvation and supported by experimental UV-vis spectroscopy. A test set of 20 prodienes was chosen to examine the role of the H atom acceptor group (substituted and unsubstituted carbonyl, thiocarbonyl, and imine), the H atom donor group, and bystander ring substituents. As reaction partners for the photogenerated dienes, a diverse test set of 20 dienophiles was examined, comprising electron rich, electron poor, neutral, strain activated, hydrocarbon, and heteroatom-containing molecules including CO2 and CO. A key finding of this work is the demonstration that the PEDA sequence of carbonyl based prodienes is tolerant of most substitution patterns. Another is that thiocarbonyl derivatives should behave analogously to the carbonyls but are likely to do so much more slowly, due to an inefficient intersystem crossing, an endothermic 1,5-hydrogen atom transfer (HAT) step, and a [1,5] sigmatropic H shift to regenerate the starting material that outcompetes the [4 + 2]cycloaddition. In contrast, the T1 state of the ortho-alkyl imines displays the incorrect orbital symmetry for 1,5-HAT and is correspondingly accompanied by higher barriers, even in the excited state. However, provided these barriers can be overcome, the remaining steps in the PEDA sequence are predicted to be facile. The Diels-Alder reaction is predicted to be of much broader scope than reported synthetic literature: while electron poor dienophiles are expected to be the most reactive partners, ethylene and electron rich alkenes should react at a synthetically useful rate. CO is predicted to undergo a facile (4 + 1)cheletropic addition instead of the normal [4 + 2]cycloaddition pathway. This unique photoenolization/cheletropic addition (PECA) sequence could provide metal-free access to benzannelated cyclopentanones." @default.
W4206191458 created "2022-01-26" @default.
W4206191458 creator A5021208925 @default.
W4206191458 creator A5053197955 @default.
W4206191458 creator A5076666817 @default.
W4206191458 creator A5083158068 @default.
W4206191458 date "2022-01-07" @default.
W4206191458 modified "2023-10-16" @default.
W4206191458 title "Tuning Photoenolization-Driven Cycloadditions Using Theory and Spectroscopy" @default.
W4206191458 cites W1474222023 @default.
W4206191458 cites W1606012777 @default.
W4206191458 cites W1971892824 @default.
W4206191458 cites W1973664523 @default.
W4206191458 cites W1976195022 @default.
W4206191458 cites W1983356092 @default.
W4206191458 cites W1984969674 @default.
W4206191458 cites W1986429635 @default.
W4206191458 cites W1987686690 @default.
W4206191458 cites W1989854295 @default.
W4206191458 cites W1992262102 @default.
W4206191458 cites W1992879644 @default.
W4206191458 cites W2000579923 @default.
W4206191458 cites W2007107123 @default.
W4206191458 cites W2011215428 @default.
W4206191458 cites W2020424754 @default.
W4206191458 cites W2020500346 @default.
W4206191458 cites W2022259656 @default.
W4206191458 cites W2024744943 @default.
W4206191458 cites W2026669180 @default.
W4206191458 cites W2031005884 @default.
W4206191458 cites W2039294512 @default.
W4206191458 cites W2041243006 @default.
W4206191458 cites W2045010143 @default.
W4206191458 cites W2065695410 @default.
W4206191458 cites W2076615796 @default.
W4206191458 cites W2084698592 @default.
W4206191458 cites W2089144548 @default.
W4206191458 cites W2089435875 @default.
W4206191458 cites W2095755286 @default.
W4206191458 cites W2118124791 @default.
W4206191458 cites W2143847529 @default.
W4206191458 cites W2150697053 @default.
W4206191458 cites W2152010860 @default.
W4206191458 cites W2155037161 @default.
W4206191458 cites W2162489889 @default.
W4206191458 cites W2170304561 @default.
W4206191458 cites W2172193002 @default.
W4206191458 cites W2187816675 @default.
W4206191458 cites W2272677741 @default.
W4206191458 cites W2283477962 @default.
W4206191458 cites W2290002328 @default.
W4206191458 cites W2332728071 @default.
W4206191458 cites W2340734271 @default.
W4206191458 cites W2342892827 @default.
W4206191458 cites W2511331977 @default.
W4206191458 cites W2518962886 @default.
W4206191458 cites W2528775367 @default.
W4206191458 cites W2558623433 @default.
W4206191458 cites W2754421012 @default.
W4206191458 cites W2761643084 @default.
W4206191458 cites W2766154499 @default.
W4206191458 cites W2791093280 @default.
W4206191458 cites W2886809618 @default.
W4206191458 cites W2901166588 @default.
W4206191458 cites W2908262124 @default.
W4206191458 cites W2917734609 @default.
W4206191458 cites W2949722639 @default.
W4206191458 cites W2949989325 @default.
W4206191458 cites W2950034284 @default.
W4206191458 cites W2951249173 @default.
W4206191458 cites W2959595563 @default.
W4206191458 cites W2966005370 @default.
W4206191458 cites W2995527285 @default.
W4206191458 cites W3006965122 @default.
W4206191458 cites W3042053643 @default.
W4206191458 cites W3089443081 @default.
W4206191458 cites W3092110111 @default.
W4206191458 cites W3109046965 @default.
W4206191458 cites W3119518018 @default.
W4206191458 cites W3120214126 @default.
W4206191458 cites W3132986083 @default.
W4206191458 cites W3139844814 @default.
W4206191458 cites W3147242996 @default.
W4206191458 cites W3154775954 @default.
W4206191458 cites W4235602467 @default.
W4206191458 cites W88123128 @default.
W4206191458 doi "https://doi.org/10.1021/jacs.1c12174" @default.
W4206191458 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34991316" @default.
W4206191458 hasPublicationYear "2022" @default.
W4206191458 type Work @default.
W4206191458 citedByCount "10" @default.
W4206191458 countsByYear W42061914582022 @default.
W4206191458 countsByYear W42061914582023 @default.
W4206191458 crossrefType "journal-article" @default.
W4206191458 hasAuthorship W4206191458A5021208925 @default.
W4206191458 hasAuthorship W4206191458A5053197955 @default.
W4206191458 hasAuthorship W4206191458A5076666817 @default.
W4206191458 hasAuthorship W4206191458A5083158068 @default.