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W2322162786 abstract "The first theoretical study on the effects of ligands on the mechanism, reactivities, and regioselectivities of Rh(I)-catalyzed (5 + 2) cycloadditions of vinylcyclopropanes (VCPs) and alkynes has been performed using density functional theory (DFT) calculations. Highly efficient and selective intermolecular (5 + 2) cycloadditions of VCPs and alkynes have been achieved recently using two novel rhodium catalysts, [Rh(dnCOT)](+)SbF(6)(-) and [Rh(COD)](+)SbF(6)(-), which provide superior reactivities and regioselectivities relative to that of the previously reported [Rh(CO)(2)Cl](2) catalyst. Computationally, the high reactivities of the dnCOT and COD ligands are attributed to the steric repulsions that destabilize the Rh-product complex, the catalyst resting state in the catalytic cycle. The regioselectivities of reactions with various alkynes and different Rh catalysts are investigated, and a predictive model is provided that describes substrate-substrate and ligand-substrate steric repulsions, electronic effects, and noncovalent π/π and C-H/π interactions. In the reactions with dnCOT or COD ligands, the first new C-C bond is formed proximal to the bulky substituent on the alkyne to avoid ligand-substrate steric repulsions. This regioselectivity is reversed either by employing the smaller [Rh(CO)(2)Cl](2) catalyst to diminish the ligand-substrate repulsions or by using aryl alkynes, for which the ligand-substrate interactions become stabilizing due to π/π and C-H/π dispersion interactions. Electron-withdrawing groups on the alkyne prefer to be proximal to the first new C-C bond to maximize metal-substrate back-bonding interactions. These steric, electronic, and dispersion effects can all be utilized in designing new ligands to provide regiochemical control over product formation with high selectivities. The computational studies reveal the potential of employing the dnCOT family of ligands to achieve unique regiochemical control due to the steric influences and dispersion interactions associated with the rigid aryl substituents on the ligand." @default.
W2322162786 created "2016-06-24" @default.
W2322162786 creator A5021833788 @default.
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W2322162786 creator A5058605673 @default.
W2322162786 creator A5060002438 @default.
W2322162786 creator A5061022837 @default.
W2322162786 date "2012-06-21" @default.
W2322162786 modified "2023-10-08" @default.
W2322162786 title "Ligand Effects on Rates and Regioselectivities of Rh(I)-Catalyzed (5 + 2) Cycloadditions: A Computational Study of Cyclooctadiene and Dinaphthocyclooctatetraene as Ligands" @default.
W2322162786 cites W178733904 @default.
W2322162786 cites W1963565960 @default.
W2322162786 cites W1966796891 @default.
W2322162786 cites W1969510290 @default.
W2322162786 cites W1970356544 @default.
W2322162786 cites W1971829436 @default.
W2322162786 cites W1972464431 @default.
W2322162786 cites W1973467926 @default.
W2322162786 cites W1987333298 @default.
W2322162786 cites W1993461225 @default.
W2322162786 cites W1994402821 @default.
W2322162786 cites W1994527985 @default.
W2322162786 cites W1997551594 @default.
W2322162786 cites W2006224719 @default.
W2322162786 cites W2008130777 @default.
W2322162786 cites W2011295666 @default.
W2322162786 cites W2014825857 @default.
W2322162786 cites W2015723183 @default.
W2322162786 cites W2023271753 @default.
W2322162786 cites W2028476830 @default.
W2322162786 cites W2030122698 @default.
W2322162786 cites W2033258948 @default.
W2322162786 cites W2038658017 @default.
W2322162786 cites W2039559098 @default.
W2322162786 cites W2042611048 @default.
W2322162786 cites W2044591029 @default.
W2322162786 cites W2045218437 @default.
W2322162786 cites W2047736423 @default.
W2322162786 cites W2051228679 @default.
W2322162786 cites W2054155646 @default.
W2322162786 cites W2055638152 @default.
W2322162786 cites W2056073623 @default.
W2322162786 cites W2058848030 @default.
W2322162786 cites W2060742974 @default.
W2322162786 cites W2062143293 @default.
W2322162786 cites W2069370933 @default.
W2322162786 cites W2073670208 @default.
W2322162786 cites W2074246207 @default.
W2322162786 cites W2074642701 @default.
W2322162786 cites W2081724295 @default.
W2322162786 cites W2085336624 @default.
W2322162786 cites W2088731673 @default.
W2322162786 cites W2092157292 @default.
W2322162786 cites W2096747776 @default.
W2322162786 cites W2102241617 @default.
W2322162786 cites W2106469883 @default.
W2322162786 cites W2107205644 @default.
W2322162786 cites W2124824532 @default.
W2322162786 cites W2124835719 @default.
W2322162786 cites W2135594537 @default.
W2322162786 cites W2140832174 @default.
W2322162786 cites W2142207867 @default.
W2322162786 cites W2142611005 @default.
W2322162786 cites W2143981217 @default.
W2322162786 cites W2150697053 @default.
W2322162786 cites W2154550723 @default.
W2322162786 cites W2160999136 @default.
W2322162786 cites W2162743165 @default.
W2322162786 cites W2167872912 @default.
W2322162786 cites W2335471760 @default.
W2322162786 cites W2863547748 @default.
W2322162786 cites W2949065338 @default.
W2322162786 cites W2950058448 @default.
W2322162786 cites W2950896842 @default.
W2322162786 cites W2951845388 @default.
W2322162786 cites W2952535127 @default.
W2322162786 cites W2952649040 @default.
W2322162786 cites W2952711529 @default.
W2322162786 cites W2952907312 @default.
W2322162786 cites W4253924996 @default.
W2322162786 cites W4254989638 @default.
W2322162786 doi "https://doi.org/10.1021/ja3041724" @default.
W2322162786 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/22668243" @default.
W2322162786 hasPublicationYear "2012" @default.
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