New Strategies for Designing Receptors and Preparing Ultra-Sensitive Chemically Selective Electrode Surfaces

Abstract

Our research efforts have been focused on the design and synthesis of macrocyclic complexes based on the 'Weak-Link Approach' and their applications for recognition and separation technologies. Several important research discoveries have been made over the course of the project. A more thorough understanding of the fundamental parameters that control the formation of macrocyclic receptors formed via the Weak-Link Approach has been developed. In addition, novel hemilabile ligands that have used to form a new class of macrocycles referred to as 'molecular tweezers' have been designed. These structures can recognize molecule based on size, shape and the ability to form tt-stacking interactions. Using the Weak-Link Approach we have also synthesized a stable Rh(II) species, a set of chiral macrocyclic receptors and a series of heterobimetallic macrocyclic structures. This provides us with a library of compounds to investigate in future sensing applications. In the area of signal transduction, we have developed several fluorescent systems that utilize a new class of highly fluorescent ligands and Fluorescence Resonance Energy Transfer (FRET). Their receptor and molecular sensing properties has been investigated.

Document Details

Document Type

Technical Report

Publication Date

Aug 31, 2003

Accession Number

ADA418189

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