Department of Coatings and Polymeric Materials, North Dakota State University, P.O. Box 6050, Fargo, North Dakota 58108-6050, USA.
Langmuir. 2011 Sep 6;27(17):10356-9. doi: 10.1021/la201883f. Epub 2011 Aug 2.
Host-guest interactions between cyclohexasilane (Si(6)H(12)) and amphiphilic invertible macromolecules based on PEG and sebacic acid in acetonitrile (neither a solvent for cyclohexasilane nor a support for the micellization of amphiphilic invertible macromolecules) have been investigated. Despite the extended conformation of the macromolecules and the absence of self-assembled polymeric domains, a macromolecular amphiphilicity itself contributes to localizing Si(6)H(12) by AIP and thus enables Lewis acid-base interactions between Si(6)H(12) and the AIP carbonyl groups. The obtained results demonstrate an interesting phenomenon in that insoluble Si(6)H(12) can be localized by AIP macromolecules in a medium that does not support the formation of polymeric domains.
已研究了环己硅烷(Si(6)H(12))与基于 PEG 和癸二酸的两亲性可翻转大分子在乙腈中的主客体相互作用(乙腈既不是环己硅烷的溶剂,也不是两亲性可翻转大分子胶束化的载体)。尽管大分子具有伸展构象且不存在自组装聚合物畴,但大分子的两亲性本身有助于通过 AIP 将 Si(6)H(12)定位,从而使 Si(6)H(12)与 AIP 羰基之间发生路易斯酸碱相互作用。所得结果表明了一种有趣的现象,即在不支持形成聚合物畴的介质中,AIP 大分子可以将不溶性 Si(6)H(12)定位。