52217-62-6Relevant academic research and scientific papers
Process for Preparing Polysilylalkane
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Paragraph 0056-0057; 0100-0102, (2020/04/17)
Polysilylalkane according to the present invention is represented by following formula. The present invention has an advantage that bis(silyl)alkanes or tri(silyl)alkanes can be manufactured in a high yield by dehydrochlorination with a small amount of catalyst by using a silane compound having a dichloro organic matter or a dichloromethyl group.COPYRIGHT KIPO 2020
Process for Preparing Polysilylalkane
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Paragraph 0072; 0086-0088, (2016/11/02)
According to the present invention, polysilylalkane is represented by chemical formula 3. In chemical formula 3, m is equal to n, and n is equal to zero; and R^3 is a chloromethyl group. In the case of R^4 is H, -SiMe_2Cl, -SiMe_3, -SiMeCl_2, and -SiCl_3, R^3 is equal to -SiCl_3. In the case of R^4 is H, and R^5 is equal to R^6 and R^6 is equal to Me, or R^5 is equal to Me and R^6 is equal to Et, R^3 is -SiCl_3. In the case of R^4 is H, R^5 is equal to -CH_2SiCl_3, and R^6 is Me, R^3 is equal to -SiCl_3. In the case of R^4 is H, R^5 is equal to R^6 and R^6 is equal to -CH_2SiCl_3, R^3 is equal to Et, SiMe_2Cl, -SiMeCl_2, and -SiCl_3, and m is an integer of zero to nine. The manufacturing method is capable of manufacturing bis(silyl)alkane or tri(silyl)alkane in a high yield with a small amount of a catalyst.COPYRIGHT KIPO 2016
Process for Preparing Polysilylalkane
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Paragraph 0071; 0072; 0086; 0087, (2016/10/31)
A polysilyalkane according to the present invention is presented by a formula. Here, m=n=0, R^3 is chloro, and methyl group; when R^4 is H, -SiMe_2Cl, -SiMe_3,-SiMeCl_2, -SiCl_3, R^3=-SiCl_3; R^4 is H, R^5=R^6=Me or R^5=Me, when R6=Et, R^3-SiCl_3; R^4 is H, R^5= -CH_2SiCl_3, when R^6 is Me, R^3=-SiCl_3; R^4 is H, when R5=R6=-CH_2SiCl_3, R^3=Et, SiMe_2Cl, -SiMeCl_2, -SiCl_3, and m is integer number of 0-9.COPYRIGHT KIPO 2015
Sliding agent for winter sport equipment
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Page/Page column 8-9, (2009/10/18)
The present invention relates to the lubrication and/or water repellency of gears used, in particular, during the practice of winter sports. A surface tension of the lubricant agent lower than that of the gear implies an increase of water repellency and thus, an improvement of the capability of removing the water film forming between the snow and the bottom lining of the gear during the reciprocal movement. In fact, this water film increases the adherence of the bottom lining to the snow and reduces the sliding thereof. Such lubricating action is achieved by the use of the compound having the described formula, pure or in a mixture.
