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17932-93-3

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17932-93-3 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 17932-93-3 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 1,7,9,3 and 2 respectively; the second part has 2 digits, 9 and 3 respectively.
Calculate Digit Verification of CAS Registry Number 17932-93:
(7*1)+(6*7)+(5*9)+(4*3)+(3*2)+(2*9)+(1*3)=133
133 % 10 = 3
So 17932-93-3 is a valid CAS Registry Number.

17932-93-3Relevant academic research and scientific papers

Catalytic Enantioselective Dehydrogenative Si-O Coupling to Access Chiroptical Silicon-Stereogenic Siloxanes and Alkoxysilanes

Zhu, Jiefeng,Chen, Shuyou,He, Chuan

supporting information, p. 5301 - 5307 (2021/05/04)

A rhodium-catalyzed enantioselective construction of triorgano-substituted silicon-stereogenic siloxanes and alkoxysilanes is developed. This process undergoes a direct intermolecular dehydrogenative Si-O coupling between dihydrosilanes with silanols or alocohols, giving access to a variety of highly functionalized chiral siloxanes and alkoxysilanes in decent yields with excellent stereocontrol, that significantly expand the chemical space of the silicon-centered chiral molecules. Further utility of this process was illustrated by the construction of CPL-active (circularly polarized luminescence) silicon-stereogenic alkoxysilane small organic molecules. Optically pure bis-alkoxysilane containing two silicon-stereogenic centers and three pyrene groups displayed a remarkable glum value with a high fluorescence quantum efficiency (glum = 0.011, φF = 0.55), which could have great potential application prospects in chiral organic optoelectronic materials.

Silicon-center chiral silicon-oxygen compound and preparation method thereof

-

Paragraph 0086; 0100-0103, (2021/07/24)

The invention belongs to the field of chiral silicon synthesis, and discloses a silicon-center chiral silicon-oxygen compound. The compound has a structure represented by general formula I shown in the specification. In the formula I, X is Si(R)n or a formula also shown in the specification, R is selected from alkyl, cycloalkyl and aryl, R is selected from alkyl, substituted phenyl and aryl, R is selected from alkyl, phenyl and substituted phenyl, n is 3, the three R are the same or different, R is selected from hydrogen and (C1-C4) alkyl, m is selected from 0, 1, 2 and 3, and Y is selected from substituted phenyl, substituted pyrenyl, aryl, heteroaryl and cycloalkyl. The invention also discloses a preparation method of the compound. Various highly functionalized chiral siloxanes and silyl ethers are obtained with good chemical, regional and stereo control and high yield, the variety of silicon center chiral compounds is expanded, and the method has the advantages of high enantioselectivity, wide substrate application range, mild reaction conditions, atom economy and the like. In addition, the compound provided by the invention has a huge application prospect in chiral organic photoelectric materials.

Iridium(III)-catalyzed enantioselective Si-H bond insertion and formation of an enantioenriched silicon center

Yasutomi, Yoichi,Suematsu, Hidehiro,Katsuki, Tsutomu

supporting information; experimental part, p. 4510 - 4511 (2010/06/19)

Iridium(III)-salen complexes were found to efficiently catalyze enantioselective carbene Si-H bond insertion. Highly enantioselective Si-H insertion with α-alkyl- α-diazoacetates (≥97% ee) was achieved for the first time by using the iridium complex 4 {(aR,S), Ar = 4-TBDPSC 6H4} bearing a concave-shaped salen ligand as the catalyst. Formation of a chiral silicon center was also achieved for the first time by the Si-H insertion into prochiral silanes: the reactions between prochiral silanes and tert-butyl α-diazopropionate in the presence of complex 5 {(aR,S), Ar = Ph} proceeded with high stereoselectivity (84-99% de, 94→99% ee). The Si-H insertion into trisubstitued silanes with α-aryl- α-diazoacetates proceeded with almost complete enantioselectivity (≥99% ee) by using complex 1 {(aR,R), Ar = Ph} as catalyst.

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