Development of Polythiophene–Tripeptide Covalent Conjugates Showing Excellent Structure-Dependent Photophysical and Photocurrent Properties

Abstract

Presently, conducting polymer–peptide conjugates have drawn great interest for their interesting optoelectronic and photophysical properties. To understand the structural dependence of the conjugates on their properties, we have covalently coupled poly(3-thiophene acetic acid) (P3TAA) with a C-protected tripeptide, H2N-F-F-V-OMe (TPEP), to produce their conjugate PTCP-I. A carboxylic acid-deprotected tripeptide polythiophene conjugate (PTCP-II) is also produced by alkaline hydrolysis of PTCP-I to delineate any difference in properties due to the change in molecular structure. The stretching frequencies for −NH– and >C═O groups of PTCP-II are 11 and 26 cm–1 lower than those of PTCP-I, indicating better intermolecular hydrogen bonding interactions in the former. This alters the seaweed morphology of PTCP-I to a sheet morphology for PTCP-II.