Ethanol macrocluster formation on a mercaptoethanol modified gold surface in ethanol/cyclohexane binary liquids studied by surface plasmon resonance

We have recently found that ethanol molecules form a hydrogen-bonded organized structure from the silanol groups of the glass surface, which we call an "ethanol macrocluster". This study aims at developing a method for forming similar molecular macroclusters from the other hydrogen bonded functional groups in addition to the silanol group. We modified Au-deposited glass surface with 11-Mercaptoundecanol (11-MUN) and 2-Mercatoethanol (2-MET), respectively. Adsorption of ethanol on these substrates was studied using the surface plasmon resonance (SPR) measurement in ethanol/cyclohexane binary liquids and estimated the thickness of the adsorbed ethanol layer. For both substrates, the difference in SPR angles between the value for cyclohexane and 1.8 mol% ethanol was ca. 0.6 degree, corresponding to 5.5-7 nm thickness of the adsorbed ethanol layer. This result indicated the formation of the ethanol macroclusters from the OH groups on the Au substrate.