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CHSi(CH3)3C(CH3)C(C6H5)CH2 is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

130220-48-3

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130220-48-3 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 130220-48-3 includes 9 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 6 digits, 1,3,0,2,2 and 0 respectively; the second part has 2 digits, 4 and 8 respectively.
Calculate Digit Verification of CAS Registry Number 130220-48:
(8*1)+(7*3)+(6*0)+(5*2)+(4*2)+(3*0)+(2*4)+(1*8)=63
63 % 10 = 3
So 130220-48-3 is a valid CAS Registry Number.

130220-48-3Downstream Products

130220-48-3Relevant academic research and scientific papers

Cross-coupling reactions of d2 tantalum alkyne complexes: Selective 1,3-diene syntheses and their relevance to alkyne cyclization chemistry

Strickler, Jamie R.,Wexler, Pamela A.,Wigley, David E.

, p. 118 - 127 (2008/10/08)

Ta(DIPP)3Cl2(OEt2) (DIPP = 2,6-diisopropylphenoxide) can be reduced by two electrons in the presence of the bulky alkynes PhC≡CPh and Me3SiC≡CMe to provide the pale yellow adducts (DIPP)3Ta-(PhC≡CPh) (1) and (DIPP)3Ta(Me3SiC≡CMe) (2). The reduction of Ta(DIPP)3Cl2(OEt2) in the presence of smaller internal alkynes (viz. EtC≡CEt) or the terminal alkynes Me3SiC≡CH or Me3CC≡CH affords the metallacyclopentadienes (DIPP)3Ta(CEt=CEtCEt=CEt) (3) or (DIPP)3Ta(CR=CHCR=CH) (4, R = SiMe3; 5, R = CMe3) directly. The molecular structure of the PhC≡CPh adduct 1 is approximately tetrahedral (L-Ta-L angles average 109.4°) and features very short Ta-Calkyne distances (2.070 (3) and 2.076 (3) A?, respectively) and an elongated "C≡C" bond (1.346 (5) A?, which indicate a strongly bound and substantially reduced alkyne ligand. The molecular structure of metallacycle 3 reveals a trigonal bipyramidal geometry (Lax-Ta-Lax = 164.9 (3)°) with the metallacyclic α carbons occupying one axial and one equatorial site. The alkyne complex (DIPP)3Ta(PhC≡CPh) (1) reacts with MeC≡CMe, EtC≡CEt, Me3CC≡CH, Me3SiC≡CH, or PhC≡CH to afford high yields of the metallacyclization products (DIPP)3Ta(CPh=CPhCMe=CMe) (6), (DIPP)3Ta(CPh=CPhCEt=CEt) (7), (DIPP)3Ta-(CPh=CPhCH=CCMe3) (8), (DIPP)3Ta(CPh=CPhCH=CSiMe3) (9), and (DIPP)3Ta-(CPh=CPhCH=CPh) (10), respectively, while 1,7-octadiyne HC≡C(CH2)4C≡CH reacts with 2 equiv of (DIPP)3Ta(PhC≡CPh) to provide the unusual bimetallic complex (DIPP)3Ta(CPh=CPhCH=C(CH2) 4-C=CHCPh=PhC)Ta(DIPP)3 (11). The alkyne adduct (DIPP)3Ta(Me3SiC≡CMe) (2) also engages in metallacyclization chemistry as it reacts with MeC≡CMe to afford (DIPP)3Ta(CMe=CSiMe3CMe=CMe) (12), with PhC≡CH to provide (DIPP)3Ta(CSiMe3=CMeCPh=CH) (13), and with Me3CC≡CH to afford (DIPP)3Ta(CCMe3=CHCSiMe3=CMe) (14). All of the metallacyclopentadiene complexes can be hydrolyzed with H2O/acetone solutions to afford the corresponding 1,3-dienes in essentially quantitative yields. However, iodination of metallacycles 6, 7, and 13 does not yield the expected 1,4-diiodo-1,3-dienes, but rather the ring-opened monoiodinated butadienyl compounds (DIPP)3(I)TaCPh=CPhCMe=CMe(I) (15), (DIPP)3(I)TaCPh=CPhCEt=CEt(I) (16), and (DIPP)3(I)TaCSiMe3=CMeCPh=CH(I) (17), respectively. The subsequent hydrolysis of compounds 15-17 provides the corresponding 1-iodo-1,3-dienes.

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