Maria T. Rojas scite author profile

Per-6-thio-/3-cyclodextrin (2) was prepared in two steps from /3-cyclodextrin. Receptor 2 is a /3-cyclodextrin derivative in which all the primary hydroxyl groups have been replaced by thiol groups. As such, 2 chemisorbs onto gold surfaces forming at least six S-Au bonds per receptor molecule. Although this derivatization process leads to imperfect monolayers in which a substantial fraction of the gold surface remains uncovered, the monolayer defects can be covered by treatment with a solution of ferrocene and pentanethiol. Ferrocene, an excellent substrate for /3-cyclodextrin, protects the monolayer binding sites, directing the pentanethiol molecules to seal defective sites instead of the cyclodextrin cavities. Electrodes derivatized by this procedure showed effective binding properties when immersed in aqueous solutions containing low concentrations (<60 /tM) of ferrocene. Their voltammetric response exhibited the waves anticipated for the reversible oxidation of the surface-confined (cyclodextrin-bound) ferrocene molecules. The process of interfacial ferrocene complexation was demonstrated to have the expected dynamic character by a series of competition experiments with m-toluic acid (mTA) in which the surface-confined voltammetric waves of ferrocene were gradually lost as increasing mTA concentrations were added to the solution.

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Ferrocenyl iron as a donor group for complexed silver in ferrocenyldimethyl[2.2]cryptand: a redox-switched receptor effective in water

Medina

et al. 1992

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Molecular recognition at the electrode-solution interface. Design, self-assembly, and interfacial binding properties of a molecular sensor

Rojas

Kaifer²

1995

J. Am. Chem. Soc.

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Electrodes modified with cast lipid films: the effects of lipid composition on the electrochemistry of incorporated amphiphilic viologens

Rojas

Han

Kaifer³

1992

Langmuir

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Redox-active macrocyles designed for direct attachment to electrode surfaces

Medina

Lynn

Rojas

et al. 1993

Supramolecular Chemistry

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Maria T. Rojas

Supported Monolayers Containing Preformed Binding Sites. Synthesis and Interfacial Binding Properties of a Thiolated .beta.-Cyclodextrin Derivative

Ferrocenyl iron as a donor group for complexed silver in ferrocenyldimethyl[2.2]cryptand: a redox-switched receptor effective in water

Molecular recognition at the electrode-solution interface. Design, self-assembly, and interfacial binding properties of a molecular sensor

Electrodes modified with cast lipid films: the effects of lipid composition on the electrochemistry of incorporated amphiphilic viologens

Redox-active macrocyles designed for direct attachment to electrode surfaces

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