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Silane, (1,2,3,4,5-benzenepentaylpenta-2,1-ethynediyl)pentakis[trimethyl- is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

113705-23-0

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113705-23-0 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 113705-23-0 includes 9 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 6 digits, 1,1,3,7,0 and 5 respectively; the second part has 2 digits, 2 and 3 respectively.
Calculate Digit Verification of CAS Registry Number 113705-23:
(8*1)+(7*1)+(6*3)+(5*7)+(4*0)+(3*5)+(2*2)+(1*3)=90
90 % 10 = 0
So 113705-23-0 is a valid CAS Registry Number.

113705-23-0Downstream Products

113705-23-0Relevant academic research and scientific papers

Synthesis of differentially substituted hexaethynylbenzenes based on tandem sonogashira and Negishi cross-coupling reactions

Sonoda, Motohiro,Inaba, Akiko,Itahashi, Kayo,Tobe, Yoshito

, p. 2419 - 2421 (2001)

(matrix presented) Synthesis of polyethynyl-substituted aromatic compounds was achieved efficiently by the use of the Negishi cross-coupling reaction, and this method, coupled with the Sonogashira reaction, was applied to the synthesis of differentially s

Tuning the Properties of Graphdiyne by Introducing Electron-Withdrawing/Donating Groups

Guan, Zhaoyong,Hu, Xiuli,Huang, Changshui,Li, Xiaodong,Li, Xiaofang,Li, Yuan,Song, Yuwei,Wang, Ning,Xie, Chipeng,Zhao, Fuhua

supporting information, p. 13542 - 13546 (2020/06/05)

The properties of graphdiyne (GDY), such as energy gap, morphology, and affinity to alkali metals, can be adjusted by including electron-withdrawing/donating groups. The push–pull electron ability and size differences of groups play a key role on the partial property adjusting of GDY derivatives MeGDY, HGDY, and CNGDY. Cyano groups (electron-withdrawing) and methyl groups (electron-donating) decrease the band gap and increase the conductivity of the GDY network. The cyano and methyl groups affects the aggregation of GDY, providing a higher number of micropores and specific surface area. These groups also endow the original GDY additional advantages: the stronger electronegativity of cyano groups increase the affinity of GDY frameworks to lithium atoms, and the larger atomic volume of methyl groups increases the interlayer distance and provides more storage space and diffusion tunnels.

PROCESSES FOR PRODUCING POLY-ETHYNYL-SUBSTITUTED AROMATIC COMPOUND

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Page column 8, (2010/02/05)

A process for preparing a poly-ethynyl-substituted aromatic compound characterized by reacting a halogenated benzene with an ethynylzinc halide; a process for preparing a poly-ethynyl-substituted aromatic compound characterized by using a halogenated benzene having at least two kinds of halogen atoms as a halogenated benzene, and (A) reacting one kind of the halogen atoms existing in the halogenated benzene with an ethynyl group-containing compound; and (B) reacting the other kind of halogen atoms remaining in the formed compound with an ethynylzinc halide. The poly-ethynyl-substituted aromatic compound is used as liquid crystals, nonlinear optical materials, electroconductive materials and the like

Synthesis of High Carbon Materials from Acetylenic Precursors. Preparation of Aromatic Monomers Bearing Multiple Ethynyl Groups

Neenan, Thomas X.,Whitesides, George M.

, p. 2489 - 2496 (2007/10/02)

The synthesis of polyethynyl aromatics as starting materials for the preparation of highly cross-linked organic solids containing high atom fractions of carbon is described.Treatment of bromo- and iodoaromatic compounds with (trimethylsilyl)acetylene (TMSA) in the presence of palladium(O) and copper(I) in amine solvents yields (trimethylsilyl)ethynyl-substituted aromatics.The TMS protecting groups can be removed by hydrolysis with mild base.Compounds prepared by using this technique include 1,3-diethynylbenzene, 2,5-diethynylthiophene, 1,3-diethynyltetrafluorobenzene, 1,4-diethynyltetrafluorobenzene, 2-ethynylthiazole, 2,4-diethynylthiazole, 2,7-diethynylnaphthalene, hexakis((trimethylsilyl)ethynyl)benzene, tetraethynylthiophene, 2,5-bis((trimethylsilyl)ethynyl)-3,4-bis(3-hydroxy-3-methyl-1-butynyl)thiophene, 2,5-diethynyl-3,4-bis(3-hydroxy-3-methyl-1-butynyl)thiophene, 2,5-bis(4-(2-thienyl)butadiynyl)-3,4-bis(3-hydroxy-3-methyl-1-butynyl)thiophene, and 2,5-bis-(4-(2-thienyl)butadiynyl)-3,4-diethynylthiophene.

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