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1,3-dibromo-2-[(2,6-dibromo-4-hexadecylphenyl)ethynyl]-5-hexadecylbenzene is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

1196205-85-2

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1196205-85-2 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 1196205-85-2 includes 10 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 7 digits, 1,1,9,6,2,0 and 5 respectively; the second part has 2 digits, 8 and 5 respectively.
Calculate Digit Verification of CAS Registry Number 1196205-85:
(9*1)+(8*1)+(7*9)+(6*6)+(5*2)+(4*0)+(3*5)+(2*8)+(1*5)=162
162 % 10 = 2
So 1196205-85-2 is a valid CAS Registry Number.

1196205-85-2Downstream Products

1196205-85-2Relevant academic research and scientific papers

2D networks of rhombic-shaped fused dehydrobenzo[12]annulenes: Structural variations under concentration control

Tahara, Kazukuni,Okuhata, Satoshi,Adisoejoso, Jinne,Lei, Shengbin,Fujita, Takumi,De Feyter, Steven,Tobe, Yoshito

supporting information; experimental part, p. 17583 - 17590 (2010/04/01)

A series of alkyl- and alkoxy-substituted rhombic-shaped bisDBA derivatives 1a-d, 2a, and 2b were synthesized for the purpose of the formation of porous networks at the 1,2,4-trichlorobenzene (TCB)/graphite interface. Depending on the alkyl-chain length and the solute concentration, bisDBAs exhibit five network structures, three porous structures (porous A, B, and C), and two nonporous structures (nonporous D and E), which are attributed to their rhombic core shape and the position of the substituents. BisDBAs 1a and 1b with the shorter alkyl chains favorably form a porous structure, whereas bisDBAs 1c and 1d with the longer alkyl chains are prone to form nonporous structures. However, upon dilution, nonporous structures are typically transformed into porous ones, a trend that can be understood by the effect of surface coverage, molecular density, and intermolecular interactions on the system's enthalpy. Furthermore, porous structures are stabilized by the coadsorption of solvent molecules. The most intriguing porous structure, the Kagome pattern, was formed for all compounds at least to some extent, and the size of its triangular and hexagonal pores could be tuned by the alkyl-chain length. The present study proves that the concentration control is a powerful and general tool for the construction of porous networks at the liquid-solid interface.

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