Ul. Stangar et al., Structure of and interactions between P/SiWA keggin nanocrystals dispersedin an organically modified electrolyte membrane, CHEM MATER, 12(12), 2000, pp. 3745-3753
Hybrid organic-inorganic proton conducting gels (PWA/ICS-PPG or SiWA/ICS-PP
G) were made from 3-isocyanatopropyltriethoxysilane and poly(propylene glyc
ol)bis(2-aminopropyl ether), resulting in a hybrid silicon precursor (ICS-P
PG) in which was dispersed phosphotungstic acid (PWA) or silicotungstic aci
d (SiWA) in ethanol. In this system, heteropoly acid takes on the additiona
l role of catalyst, initiating the hydrolysis/condensation reactions of the
sol-gel composite. The existence of amidonium ions [C(OH)=NH+] was establi
shed from the IR and Raman spectra of PWA/ and SiWA/ICS-PPG composites belo
w and close to the crystallization limits (70-75%). The crystallization of
the Keggin ions inside the ICS-PPG host was determined from the XRD spectra
of the composites and confirmed also using vibrational spectroscopy, which
shows the appearance of H3O+ modes at 1700-1710 cm(-1). The amidonium ions
help in the immobilization of the negatively charged Keggin ions in the me
mbranes, ensuring their uniform distribution in the sol-gel host. The proto
n conductivity of the composites, measured using impedance spectroscopy, in
creases with increasing concentration of the heteropoly acid from 10(-6) S/
cm (< 10 wt % PWA or SiWA) to 10(-3) S/cm for > 70 wt % of PWA or SiWA in t
he ICS-PPG.