Molecular separations, polymeric ligands

The development of methodologies for the covalent bonding of ligands to polymeric supports is important for the preparation of novel reagents to be used in ionic and molecular separations which are important to the environment and for the preparation of chemical sensors which can be used in the monitoring of environmentally sensitive areas. Our research focuses on identifying the mechanisms by which immobilized ligands... 

A more recent application of redox labeled ODNs is redox-active aptamers that exploit molecular recognition between the aptamer and a target analyte. Briefly, aptamers are functional nucleic acids that selectively bind to a variety of targets. Due to a well-defined three-dimensional structure, aptamers can achieve selectivity comparable to that of antibodies but are readily accessible taking advantage of well-known nucleic acid chemistry, polymeric chain reaction and contemporary separation methods, followed by aptamer selection from random pools of nucleic acids (DNA or RNA) by in vitro selection process called systematic evolution of ligands by... 

Liquid-liquid methods include solvent extraction with immiscible liquid-liquid systems in which a suitable ligand is dissolved in an organic phase and contacted with a metal ion containing an aqueous phase and liquid membranes. Separations can also be achieved with pseudo-phase systems such as micelles, microemulsions, and vesicles. Such separations can be solid-liquid or liquid-liquid and include separations with normal- and reversed-phase silica, and polymeric supports where the mobile phase contains the organized molecular assembly (OMA) of micelles, microemulsions, or vesicles. Separation of metal ions using the pseudo-phase systems is stiU in its infancy and a brief account will be provided here. 

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