The colloid stability of supramolecular assemblies composed of the synthetic cationic lipid diocta-decyldimethylammonium bromide(DODAB)on carboxymethyl cellulose(CMC)supported on polystyrene amidine(PSA)microspheres was evaluated via turbidimetry kinetics,dynamic light scattering for particle sizing,zeta-potential analysis,and determination of DODAB adsorption on CMC-covered particles.At 0.1 g L~(-1)CMC and 2 x 1011 PSA particles/mL,CMC did not induce significant particle flocculation,and a vast majority of CMC-covered single particles were present in the dispersion so that this was the condition chosen for determining DODAB concentration(C)effects on particle size and zeta potentials.At 0.35 mM DODAB,charge neutralization,maximal size,and visible precipitation indicated extensive flocculation and minimal colloid stability for the DODAB/CMC/PSA assembly.At 0.1 g L~(-1)CMC,isotherms of high affinity for DODAB adsorption on CMC-covered particles presented a plateau at a limiting adsorption of 700 X 10~(17)DODAB molecules adsorbed per square meter PSA which was well above bilayer deposition on a smooth particle surface.The polyelectrolyte layer on hydrophobic particles was swelled and fluffy(ca.11-nm hydrodynamic thickness),and maximal adsorption of DODAB lipid onto this layer produced a compressed composite cationic film with 20 mV of zeta potential and about 10-nm mean thickness.The assembly of cationic lipid/CMC layer/polymeric particle was stable only well above charge neutralization of the polyelectrolyte by the cationic lipid,at relatively large lipid concentrations(at and above 1 mM DODAB)with charge neutralization leading to extensive particle aggregation.
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