%0 Journal Article
%T Effects of aluminum trichloride and magnesium chloride on the synthesis of ladder polyphenylsilsesquioxane
%A Jiang Yunyun
%A Yang Rongjie
%J Chemical Industry and Chemical Engineering Quarterly
%D 2012
%I Association of the Chemical Engineers
%R 10.2298/ciceq110911018j
%X Ladder polyphenylsilsesquioxane (Ph-LPSQ) has been synthesized at 80ˇăC through the hydrolysis and condensation of phenyltrichlorosilane (PhSiCl3), with aluminum chloride (AlCl3) or magnesium chloride (MgCl2) as an assistant reactant. The Ph-LPSQ obtained has been characterized and analyzed by SEM, FTIR, TGA, 29Si NMR, and MALDI-TOF MS, and the effects of AlCl3and MgCl2on the structure regularity of Ph-LPSQ and the condensation polymerizationhavealso been studied. The results showed that Ph-LPSQ could be obtained in theAlCl3and MgCl2systems, respectively, but the experimental phenomena and results showed significant differences between the two systems. SEM observation revealed spherical Ph-LPSQ particles from the PhSiCl3/AlCl3system, but irregular and agglomerated Ph-LPSQ particles from the PhSiCl3/1.5(MgCl2) system. TGA, 29SiNMR, and MALDI-TOF MS indicated that the ladder structure of Ph-LPSQ from the PhSiCl3/1.5(MgCl2) system was more regular. Inthe PhSiCl3/AlCl3system, Al could be incorporated into the ladder chain structure through competing reactions between Si-O-Al and Si-O-Si, which slightly decreased the regularity of the ladder chain structure of Ph-LPSQ. Mechanistic analysis suggests that the presence of AlCl3or MgCl2in the hydrolysis and condensation system favors the intermolecular condensation of intermediate products of polyhydroxyl silanol to form a regular ladder structure.
%K polyphenylsilsesquioxane
%K ladder structure
%K aluminum chloride
%K magnesium chloride
%K synthesis
%U http://www.doiserbia.nb.rs/img/doi/1451-9372/2012/1451-93721200018J.pdf