Long conducting polymer nanonecklaces with a ‘beads-on-a-string’ morphology: DNA nanotube-template synthesis and electrical properties

Abstract

Complex and functional nanostructures are always desired. Herein, we present the synthesis of novel long conducting polymer nanonecklaces with a ‘beads-on-a-string’ morphology by the DNA nanotube-template approach and in situ oxidative polymerization of the 3-methylthiophene monomer with FeCl₃ as the oxidant/catalyst. The length of the nanonecklaces is up to 60 μm, and the polymer beads of around 20–25 nm in diameter are closely packed along the axis of the DNA nanotube template with a density of ca. 45 particles per μm. The formation of porous DNA nanotubes impregnated with FeCl₃ was also demonstrated as intermediate nanostructures. The mechanisms for the formation of both the porous DNA nanotubes and the conducting polymer nanonecklaces are discussed in detail. The as-synthesized polymer/DNA nanonecklaces exhibit good electrical properties.