Influence of Gold Substrate Morphology on Adsorbate Binding a

Jul 2, 2011 - Michael S. Miller, Ronan R. San Juan, Michael-Anthony Ferrato, and Tricia Breen Carmichael*. Department of Chemistry and Biochemistry, ...
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New Dialkyldithiophosphinic Acid Self-Assembled Monolayers (SAMs): Influence of Gold Substrate Morphology on Adsorbate Binding and SAM Structure Michael S. Miller, Ronan R. San Juan, Michael-Anthony Ferrato, and Tricia Breen Carmichael* Department of Chemistry and Biochemistry, University of Windsor, Windsor, Ontario, Canada, N9B 3P4

bS Supporting Information ABSTRACT: We report the fabrication and characterization of new selfassembled monolayers (SAMs) formed from dihexadecyldithiophosphinic acid [(C16)2DTPA] molecules on gold substrates. In these SAMs, the ability of the (C16)2DTPA headgroup to chelate to the gold surface depends on the morphology of the gold substrate. Gold substrates fabricated by electron-beam evaporation (As-Dep gold) consist of ∼50-nm grains separated by deep grain boundaries (∼10 nm). These grain boundaries inhibit the chelation of (C16)2DTPA adsorbates to the surface, producing SAMs in which there is a mixture of monodentate and bidentate adsorbates. In contrast, gold substrates produced by template stripping (TS gold) consist of larger grains (∼200500 nm) with shallower grain boundaries (