Fabrication and Nanoscale Properties of PEDOT:PSS Conducting Polymer Nanospheres

Abstract: <div><div><div><p>Electrically conducting nanospheres of poly-(3,4-ethylenedioxythiophene):poly(styrene sulfonate) (PEDOT:PSS) with tailored size, were prepared by a one-step method. To fabricate the nanostructures, PEDOT:PSS was dissolved in ethylene glycol using a novel strategy and the solution was precipitated in deionized water. The proposed fabrication route allowed to obtain a water-based dispersion of monodisperse nanospheres with good optical properties. To determine physical p… Show more

“…However, a recent nanoscale mechanical characterization of the PEDOT:PSS film elements used in such microelectrode arrays showed local variations over an individual probe, on a length scale of a couple of square micrometers. [12,13] This variation was Organic semiconducting polymers have attractive electronic, optical, and mechanical properties that make them materials of choice for large area flexible electronic devices. In these devices, the electronically active polymer components are micrometers in size, and sport negligible performance degradation upon bending the centimeter-scale flexible substrate onto which they are integrated.…”

Mechanical Properties of Organic Electronic Polymers on the Nanoscale

“…However, a recent nanoscale mechanical characterization of the PEDOT:PSS film elements used in such microelectrode arrays showed local variations over an individual probe, on a length scale of a couple of square micrometers. [12,13] This variation was Organic semiconducting polymers have attractive electronic, optical, and mechanical properties that make them materials of choice for large area flexible electronic devices. In these devices, the electronically active polymer components are micrometers in size, and sport negligible performance degradation upon bending the centimeter-scale flexible substrate onto which they are integrated.…”

Mechanical Properties of Organic Electronic Polymers on the Nanoscale