769-00-6Relevant academic research and scientific papers
Alkylation of 2-methylimidazole with iodomethylsilanes
Yarosh,Zhilitskaya,Shagun,Dorofeev,Larina
, p. 413 - 417 (2017)
2-Methyl-1,3-bis[(1-methylsilolan-1-yl)methyl]-1H-imidazolium triiodide, 1,3-bis{[dimethyl-(phenyl)silyl]methyl}-2-methyl-1H-imidazolium iodide and triiodide, and cyclic 3,3,5,5,10-pentamethyl-4-oxa-7-aza-1-azonia-3,5-disilabicyclo[5.2.1]deca-1(10),8-dien
NOVEL AROMATIC COMPOUNDS
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Page/Page column 108, (2018/09/19)
The present invention comprises novel aromatic molecules, which can be used in the treatment of pathological conditions, such as cancer, skin diseases, muscle disorders, and immune system-related disorders such as disorders of the hematopoietic system including the hematologic system in human and veterinary medicine.
Synthesis and reactions of donor cyclopropanes: efficient routes to cis- and trans-tetrahydrofurans
Dunn, Jonathan,Dobbs, Adrian P.
supporting information, p. 7386 - 7414 (2015/08/24)
Abstract A detailed study on the synthesis and reactions of silylmethylcyclopropanes is reported. In their simplest form, these donor-only cyclopropanes undergo Lewis acid promoted reaction to give either cis- or trans-tetrahydrofurans, with the selectivity being reaction condition-dependant. The adducts themselves are demonstrated to be an important scaffold for structural diversification. The combination of a silyl-donor group in a donor-acceptor cyclopropane with novel acceptor groups is also discussed.
1,3-γ-Silyl-elimination in electron-deficient cationic systems
Mercadante, Michael A.,Kelly, Christopher B.,Hamlin, Trevor A.,Delle Chiaie, Kayla R.,Drago, Michael D.,Duffy, Katherine K.,Dumas, Megan T.,Fager, Diana C.,Glod, Bryanna L. C.,Hansen, Katherine E.,Hill, Cameron R.,Leising, Rebecca M.,Lynes, Catherine L.,Macinnis, Allyson E.,McGohey, Madeline R.,Murray, Stephanie A.,Piquette, Marc C.,Roy, Shaina L.,Smith, Ryan M.,Sullivan, Katherine R.,Truong, Bao H.,Vailonis, Kristina M.,Gorbatyuk, Vitaliy,Leadbeater, Nicholas E.,Tilley, Leon J.
, p. 3983 - 3994 (2014/10/15)
Placement of an electron-withdrawing trifluoromethyl group (-CF 3) at a putative cationic centre enhances γ-silyl neighbouring-group participation (NGP). In stark contrast to previously studied γ-silyl-substituted systems, the preferred reaction pathway is 1,3-γ-silyl elimination, giving ring closure over solvent substitution or alkene formation. The scope of this cyclopropanation reaction is explored for numerous cyclic and acyclic examples, proving this method to be a viable approach to preparing CF3-substituted cyclopropanes and bicyclic systems, both containing quaternary centres. Rate-constants, kinetic isotope effects, and quantum mechanical calculations provided evidence for this enhancement and further elaborated the disparity in the reaction outcome between these systems and previously studied γ-silyl systems.
A silyl-mediated [3+2] photochemical cycloaddition
Organ, Michael G.,Mallik, Debasis
, p. 1259 - 1262 (2008/01/27)
The generation of larger rings from intermediate cyclobutanes via a two-step [2+2] photocycloaddition - ring expansion, known as the de Mayo reaction, has been widely applied in synthesis. Herein a one-step synthesis of cyclopentanoids has been developed
The γ-silicon effect. I. Solvent effects on the solvolyses of 2,2- dimethyl-3-(trimethylsilyl)propyl and 3-(aryldimethylsilyl)-2,2- dimethylpropyl p-toluenesulfonates
Nakashima, Tohru,Fujiyama, Ryoji,Fujio, Mizue,Tsuno, Yuho
, p. 741 - 750 (2007/10/03)
The solvolysis rates of 2,2-dimethyl-3-(trimethylsilyl)propyl and 3- (aryldimethylsilyl)-2,2-dimethylpropyl p-toluenesulfonates were measured in a wide variety of solvents at 45 °C. The solvent effects were analyzed by using the Winstein-Grunwald equation. The solvent effects observed did not give simple linear correlations with the 2-adamantyl Y(OTs) parameter, but showed dispersion behavior in a series of binary solvents. The m values of 0.59-.67 were remarkably lower than unity for the limiting k(c) solvolysis of 2-adamantyl p-toluenesulfonate. The deviation patterns could not be interpreted in terms of nucleophilic assistance by the solvent. The dispersion behavior with reduced m values was found to be more significant for the 3-(aryldimethylsilyl) than for the 3-(trimethylsilyl) derivatives and was compatible with the delocalization of the incipient cationic charge by participation of the Si-Cγ bond in the rate-determining step. An extended dual-parameter treatment, log (k/k(80E)) = m(c)Y(OTs) + m(Δ)Y(Δ), successfully correlated such γ-silyl assisted solvolyses. The M(Δ) values of 0.24-0.49 so obtained, where M(Δ) = 0.51 m(Δ)/(m(c) +0.51 m(Δ)), are a measure of the extent of charge delocalization, suggesting that the γ-silyl group in the percaudal interaction is more effective in delocalizing the cationic charge than the alkyl group in C-C σ-participation, but less so than σ-assisted interaction by the β-aryl group.
