Metal-based electrodes, despite being the most widely used for biomedical applications, are limited by a poor reliable skin-surface interface and patients suffer from comfort issues. The most common problems/inconveniences are caused by stiff electrodes, skin irritation, allergic reaction or corrosion. In order to overcome these problems, we produced and tested flexible electrodes involving biopolymer nanocomposite materials. Conductive polymers have been intensively studied and applied in the field of organic photovoltaics and flexible organic electronics. Recently, the use of conductive biopolymer nanocomposite has also emerged as an interesting and promising material for biomedical applications. In this study, we have designed and charac...
Abstract- ECG technique is employed in medical science for measuring electrical activity of the hear...
With the rapid development of the wearable detector and medical devices, flexible biosensing materia...
Biopolymers are an attractive green alternative to conventional polymers, owing to their excellent b...
Metal-based electrodes, despite being the most widely used for biomedical applications, are limited ...
Soft, flexible polymer-based bioelectronics are a promising approach to minimize the chronic inflamm...
Electrically-conducting polymers (CPs) were first developed as a revolutionary class of organic comp...
Interest in the study of biopolymer system has been continuously growing as a result of a variety of...
Conducting polymers (CPs), especially poly(3,4-ethylenedioxythiophthene) (PEDOT) and poly(pyrrole) (...
Polymers have a wide array of applications owing to their limitless tailorable properties. The inher...
AbstractCopper nanoparticles were prepared by Polyol Method and the prepared metal nanoparticles wer...
Soft conductive nanocomposites have introduced significant breakthroughs in bio-integrated electroni...
AbstractDeveloping stimulus-responsive biomaterials with easy-to-tailor properties is a highly desir...
Both sophisticated electronic systems and human biological systems rely on signal transduction and t...
Conductive polymers such as polyaniline, polypyrrole and PEDOT (poly(3,4-ethylenedioxythiophene)) ha...
Biomaterials science denotes a multidisciplinary science combining materials engineering, biomedical...
Abstract- ECG technique is employed in medical science for measuring electrical activity of the hear...
With the rapid development of the wearable detector and medical devices, flexible biosensing materia...
Biopolymers are an attractive green alternative to conventional polymers, owing to their excellent b...
Metal-based electrodes, despite being the most widely used for biomedical applications, are limited ...
Soft, flexible polymer-based bioelectronics are a promising approach to minimize the chronic inflamm...
Electrically-conducting polymers (CPs) were first developed as a revolutionary class of organic comp...
Interest in the study of biopolymer system has been continuously growing as a result of a variety of...
Conducting polymers (CPs), especially poly(3,4-ethylenedioxythiophthene) (PEDOT) and poly(pyrrole) (...
Polymers have a wide array of applications owing to their limitless tailorable properties. The inher...
AbstractCopper nanoparticles were prepared by Polyol Method and the prepared metal nanoparticles wer...
Soft conductive nanocomposites have introduced significant breakthroughs in bio-integrated electroni...
AbstractDeveloping stimulus-responsive biomaterials with easy-to-tailor properties is a highly desir...
Both sophisticated electronic systems and human biological systems rely on signal transduction and t...
Conductive polymers such as polyaniline, polypyrrole and PEDOT (poly(3,4-ethylenedioxythiophene)) ha...
Biomaterials science denotes a multidisciplinary science combining materials engineering, biomedical...
Abstract- ECG technique is employed in medical science for measuring electrical activity of the hear...
With the rapid development of the wearable detector and medical devices, flexible biosensing materia...
Biopolymers are an attractive green alternative to conventional polymers, owing to their excellent b...