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(+/-)-(E)-1-(dimethylphenylsilyl)-1-phenyl-2-butene is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

97946-09-3

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97946-09-3 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 97946-09-3 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 9,7,9,4 and 6 respectively; the second part has 2 digits, 0 and 9 respectively.
Calculate Digit Verification of CAS Registry Number 97946-09:
(7*9)+(6*7)+(5*9)+(4*4)+(3*6)+(2*0)+(1*9)=193
193 % 10 = 3
So 97946-09-3 is a valid CAS Registry Number.

97946-09-3Relevant academic research and scientific papers

Stereoselective synthesis of (Z)- and (E)-allylic silanes by copper- mediated substitution reactions of allylic carbamates with grignard reagents

Smitrovich, Jacqueline H.,Woerpel

, p. 1601 - 1614 (2007/10/03)

Both (Z)- and (E)-allylic silanes were prepared with high stereoselectivity by the copper-mediated substitution of allylic carbamates by organometallic reagents. The reaction of alkylmagnesium reagents with (E)- allylic carbamates provides (Z)-allylic silanes, whereas both alkylmagnesium and alkyllithium reagents react with (Z)-allylic carbamates to afford (E)- allylic silanes. Because Grignard reagents are often more facile to prepare than alkyllithium species, these reagents are the optimal nucleophiles for the synthesis of both (Z)- and (E)-allylic silanes. This method also allows readily available nonracemic allylic carbamates to be converted to chiral, nonracemic (Z)- and (E)-allylic silanes with high stereoselectivity.

A Regiocontrolled and Stereocontrolled Synthesis of Allylsilanes from β-Silyl Enolates

Fleming, Ian,Gil, Salvador,Sarkar, Achintya K.,Schmidlin, Tibur

, p. 3351 - 3362 (2007/10/02)

The α-lithiated diphenylphosphine oxides 3 react with methyl iodide to give the phosphine oxides 4 and 5 in a ratio 3-4:1.The corresponding reaction with aldehydes gives all four diastereomeric alcohols 7-10, which are not suitable for the synthesis of allylsilanes by a Wittig-Horner reaction.The β-dimethyl(phenyl)silyl enolates 13-15 and 25-28 react with aldehydes to give aldol products with high diastereoselectivity.The benzyl and allyl ester groups can be cleaved from these aldols to give the acids 16-18 and 29-32.The acids, in turn, can be induced to undergo dec arboxylative elimination stereospecifically either in a syn or an anti sense to give the allylsilanes 19, 20, 23, 24, 33, 34 and 39-41.A similar series of reactions can be carried out with the β-trimethylsilyl enolates 45 and 46 giving the allylsilanes 49, 50, 53 and 54.

A Regioselective and Stereospecific Synthesis of Allylsilanes from Secondary Allylic Alcohol Derivatives

Fleming, Ian,Higgins, Dick,Lawrence, Nicholas J.,Thomas, Andrew P.

, p. 3331 - 3350 (2007/10/02)

Primary and secondary allylic acetates and benzoates react with the dimethyl(phenyl)silyl-cuprate reagent to give allylsilanes, provided that the THF in which the cuprate is prepared is diluted with ether before addition of the allylic ester.The reaction is reasonably regioselective in some cases: (i) when the allylic system is more-substituted at one end than the other, as in the reactions 4->5 and 9->10; (ii) when the steric hindrance at one end is neopentyl-like, as in the reactions 15->16; and (iii) when the disubstituted double bond has the Z configuration, as in th e reactions Z-19->E-21 or, better, because the silyl group is becoming attached to the less-sterically hindered end of the allylic system, Z-20->E-22.The regioselectivity is better if a phenyl carbamate is used in place of the ester, and a three-step protocol assembling the mixed cuprate on the leaving group is used, as in the reactions 23->24 and E- or Z-29->E-21, or, best of all, because the silyl group is again becoming attached to the less-sterically hindered end of the allylic system, E- or Z-30->E-22.This sequence works well to move the silyl group onto the more substituted end of an allyl system, but only when the move is from a secondary allylic carbamate to a tertiary allylsilane, as in the reaction 38->39.Allyl(trimethyl)silanes can be made using alkyl- or aryl-cuprates on trimethylsilyl-containing allylic esters and carbamates, as in the reactions 40->41, and 43->44.The reaction of the silyl-cuprate with allylic esters and the three-step sequence with the allylic carbamates are stereochemically complementary, the former being stereospecifically anti and the latter stereospecifically syn.Homochiral allylsilanes can be ma de by these methods with high levels of stereospecificity, as shown by the synthesis of the allylsilanes 54, 58 and 59.

Diastereoselective Aldol Reactions of β-Silylenolates: A New Regiocontrolled Synthesis of Allylsilanes

Fleming, Ian,Sarkar, Achintya K.

, p. 1199 - 1201 (2007/10/02)

Allylsilanes are prepared stereospecifically trans (10) or cis (12) and with complete regiocontrol by decarboxylative elimination of the β-hydroxy acids (9).

A Stereospecific Synthesis of Optically Active Allylsilanes

Fleming, Ian,Thomas, Andrew P.

, p. 1456 - 1457 (2007/10/02)

The phenyldimethylsilyl-cuprate reagent reacts with secondary allyl acetates stereospecifically anti, and with secondary and tertiary allyl urethanes stereospecifically syn; these reactions can be used to synthesise either enantiomer of an optically activ

Regiocontrolled Allylsilane Synthesis from Secondary Allylic Alcohol Derivatives

Fleming, Ian,Thomas, Andrew P.

, p. 411 - 413 (2007/10/02)

Unsymmetrical secondary allylic acetates and urethanes react with the dimethyl(phenyl)silylcuprate reagent to give allylsilanes with fair to good regioselectivity.

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