Structural and Conformational Chemistry from Electrochemical Molecular Machines. Replicating Biological Functions. A Review

Abstract Each constitutive chain of a conducting polymer electrode acts as a reversible multi‐step electrochemical molecular motor: reversible reactions drive reversible conformational movements of the chain. The reaction‐driven cooperative actuation of those molecular machines generates, or destroys, inside the film the free volume required to lodge/expel balancing counterions and solvent: reactions drive reversible film volume variations, which basic structural components are here identified and quantified from electrochemical responses. The content of the reactive dense gel (chemical molecular machines, ions and water) mimics that of the intracellular matrix in living functional cells. Reaction‐driven properties (composition‐dependent properties) and devices replicate biological functions and organs. An emerging technological world of soft, wet, reaction‐driven, multifunctional and biomimetic devices and the concomitant zoomorphic or anthropomorphic robots is presented. Conducting polymers, and other electroactive materials, replicate by electrochemical reactions content (molecular machines, ions and solvent), conformational and structural changes, properties and functions of the Intracellular matrix (ICM) of functional cells.
Source: Contrast Media and Molecular Imaging - Category: Radiology Authors: Tags: Personal Account Source Type: research