Electrically conductive polymeric materials have recently attracted considerable interest from
academic and industrial researchers to explore their potential in biomedical applications …

Poly (3, 4-ethylenedioxythiophene) s are the conducting polymers (CP) with the biggest
prospects in the field of bioelectronics due to their combination of characteristics …

The custom design of surfaces with special wettability properties has been extensively
studied over the last two decades and can be now obtained using a wide range of materials …

In this study, we examined the influence of functionalized poly (3, 4-ethylenedioxythiophene)
(PEDOT) nanostructures decorated on the channel layer of an organic electrochemical …

Conducting polymers are considered to be favorable electrode materials for implanted
biosensors and bioelectronics, because their mechanical properties are similar to those of …

Abstract One-dimensional (1-D) polymer nanostructures have attracted much attention due
to their unique properties and many potential applications in areas such as sensors …

Hypothesis The formation of porous nanostructures on surfaces and the control of their size
and shape is fundamental for various applications. The creation of nanotubes is particularly …

A novel electrochemical sensor for α-synuclein, a marker for Parkinson's disease, has been
developed, based on molecularly imprinted electrochemically active polymers. Parkinson's …

In this research, we aimed to evaluate the impact of the surface charges and morphologies
of electrodes on electrochemically detecting dopamine (DA) in the presence of protein …

The solution processing of optoelectronic active layers promises to usher in a new era of
technologies, from rollable displays to smart textiles, but critical challenges remain in the …