Grafting of hyperbranched cyclotriphosphazene polymer onto silica nanoparticle and carbon black surfaces

• Published in: Journal of polymer science. Part A, Polymer chemistry Vol. 46; no. 12; pp. 4218 - 4226
• Main Authors: Wei, Gang, Sasage, Nozomu, Kusanagi, Yusuke, Fujiki, Kazuhiro, Yamauchi, Takeshi, Tsubokawa, Norio
• Format: Journal Article
• Language: English
• Published: Wiley Subscription Services, Inc., A Wiley Company 15.06.2008
• ISSN: 0887-624X; 1099-0518
• DOI: 10.1002/pola.22778

The surface grafting of hyperbranched cyclotriphosphazene polymer onto silica nanoparticles and carbon black was investigated. The grafting of hyperbranched cyclotriphosphazene polymer onto these surfaces was achieved by the repeated reactions of hexachlorocyclotriphosphazene with hexamethylenediamine from surface amino groups and sodium carboxylate groups, respectively. The percentage of grafting onto silica and carbon black surfaces exceeded 760 and 390%, respectively. However, it proved difficult to achieve the theoretical growth of cyclotriphosphazene polymer from these surfaces because of steric hindrance. The introduction of sulfonic acid groups was successfully achieved by the reaction of terminal chlorophosphazene groups of the hyperbranched polymer-grafted silica and carbon black with sulfanilic acid. The content of sulfonic acid groups introduced onto silica and carbon black surfaces was 4.98 mmol/g and 5.70 mmol/g, respectively. The sulfonated cyclotriphosphazene polymer-grafted carbon black was extremely hydrophilic, yielding stable colloidal dispersions in polar solvents. The sulfonated cyclotriphosphazene polymer-grafted silica and carbon black showed ionic conductivity, with the conductance increasing exponentially with increasing relative humidity and temperature. This study may offer important leads in the application of silica nanoparticles and carbon black in polymeric membranes for fuel cells.