Abstract
The interfacial organization of mucin (glycoprotein) in the presence of chromium(III) complexes has been assessed from the surface pressure–molecular area ( π–A) isotherms in Langmuir films at air–water interface and the surface energy of their LB films through contact angle measurements. At pH 7.0, the electrostatic interaction of [Cr(en) 3]Cl 3 with mucin was found to bring about changes in the average surface area from 3.26 to 1.47 nm 2; suggesting the possible formation of large aggregates of mucin. Adsorption experiments using surface potential measurements reveal that [Cr(en) 3]Cl 3 binds at a much faster rate to the available binding sites in mucin when compared to [Cr(salen)(H 2O) 2](ClO 4) which binds coordinatively to mucin.
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