Hybrid synthesis and processing schemes for highly-ordered polyaniline nanoarchitectures

A. Vlad; Piotr Jedrasik; C. A. Dutu; D.A. Serban; P. Guillet; C. A. Fustin; Ulf Södervall; J. F. Gohy; S. Melinte

doi:10.1109/INEC.2010.5424497

Hybrid synthesis and processing schemes for highly-ordered polyaniline nanoarchitectures
Övrigt konferensbidrag, 2010

We report on a newly developed technology for the nanoscale processing of the conducting polyaniline (PANI) with an unprecedented areal patterning order and density control exceeding 0.25 teradot/inch 2 . A simple two-step process is put forward to hierarchically build a large variety of functional PANI nanostructures on virtually any type of flexible or rigid substrates. Using template confinement, through Pt catalyzed electroless growth, highly-ordered arrays of distinct PANI nanowires are produced. Complex three-dimensional (3D) structural control is achieved through a direct pattern transfer using a novel type of resist- and dose-modulated 3D electron beam lithography. The method is scalable and provides a generic approach for nanopatterning surfaces with functional polymers. Aspects of the nanoscale PANI growth mechanism are discussed and the highly controllable, sub-picogram scale fabrication is emphasized. Simple schemes for single PANI nanowire fabrication, processing and device integration are presented. ©2010 IEEE.

Pt-catalyzed

Electroless

Ordered array

Two-step process

Device integration

Growth mechanisms

Pattern transfers

Nano scale

Density control

3d electron

Nanoscale processing

NanoPatterning

Structural control

Rigid substrates

Nanoarchitectures

Conducting polyaniline

Three-dimensional (3D)

Generic approach