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allyl-di-n-hexylphenylsilane is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

283157-77-7

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283157-77-7 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 283157-77-7 includes 9 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 6 digits, 2,8,3,1,5 and 7 respectively; the second part has 2 digits, 7 and 7 respectively.
Calculate Digit Verification of CAS Registry Number 283157-77:
(8*2)+(7*8)+(6*3)+(5*1)+(4*5)+(3*7)+(2*7)+(1*7)=157
157 % 10 = 7
So 283157-77-7 is a valid CAS Registry Number.

283157-77-7Downstream Products

283157-77-7Relevant academic research and scientific papers

Sakurai addition and ring annulation of allylsilanes with α,β-unsaturated esters. Experimental results and ab initio theoretical predictions examining allylsilane reactivity

Organ, Michael G.,Dragan, Vladimir,Miller, Michael,Froese, Robert D. J.,Goddard, John D.

, p. 3666 - 3671 (2000)

Trimethylallylsilane has been shown to add to methyl acrylate in good yield when catalyzed by TiCl4 at room-temperature despite literature reporting to the contrary. Further, even with these small alkyl ligands on the metal, ring annulation occurs to a large extent, in addition to simple allylation (Sakurai addition). The kinetic product is the ((trimethylsily)methyl)cyclobutane derivative which can be isomerized to cyclopentanoid, the thermodynamic product, if left in the presence of the catalyst. Consistent with other literature in this area, increasing the size of the ligands on silicon increases both the rate of product formation and the proportion of ring annulation relative to allylation. To develop a predictive model for allylsilane reactivity, ab initio gas-phase calculations have been made on the parent allylsilane with different ligands on the metal and on the reaction between these allylsilanes and acrolein, acrylic acid, and methyl acrylate. Predictions indicate that as the length of n-alkyl ligands on silicon increase, so does the apparent ability of the Si-Cα bond of the allylsilane to hyperconjugate with developing vacant p orbital on Cβ as the allylsilane begins to attack an electrophile. This is corroborated by a gradually increasing HOMO in the ground-state allylsilane as the ligands are changed from methyl through to n-hexyl and an increasing Si-Cα bond length and decreasing Si-Cα-Cβ bond angle in the protonated species. These results in the gas phase mirror the reactivity of these n-alkyl-substituted allylsilanes in experiment; i.e., as the length of the alkyl chain increases, reactivity increases significantly. Triisopropylallylsilane, a very reactive silane, appears to anomalous in charge distribution and geometrical features compared with other substituted allylsilane systems which is due, presumably, to steric effects. The calculations on the protonated species would indicate that almost no hyperconjugative stabilization can occur on the basis of the bond lengths and angles necessary to promote good orbital overlap between the Si-Cα bond and the empty p orbital on Cβ. However, the gas-phase reaction of the triisopropylallylsilane with acrolein and methyl acrylate led to comparatively low energy barriers of 13.1 and 24.5, respectively, which is consistent with its high experimental reactivity. Together, this computational analysis has produced a useful model for predicting allylsilane reactivity and some possible explanations for this reactivity.

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