Abstract
We investigate the effect of Coulombic interactions on the mobility of rhodamine 6G (R6G) and Oregon Green 514 (ORG) in sol−gel silicates by measuring their mobility distributions using single molecule polarization measurements. While R6G is a cationic dye, ORG (pKa = 3.69 ± 0.08) is an anionic dye at neutral pH. The presence of more tumbling ORG molecules in sol−gel silicates indicates that R6G and ORG experience opposite Coulombic interactions with a predominately anionic silica sol−gel surface. On the other hand, the fact that tumbling ORG only represents a minor portion of ORG investigated, even at pH 7, clearly illustrates that Coulombic interaction alone does not control the mobility of an encapsulated guest molecule in sol−gel silicates.
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