With the rapid development of the wearable detector and medical devices, flexible biosensing materials have received more and more attention. In this work, a novel flexible and conductive biocompatible composite with electronic and ionic bioconductive ability was demonstrated to fabricate a new flexible bioelectrode used for electrophysiological signal detection. This composite was prepared by the in situ self-polymerization of dopamine on the nanofiber of bacterial cellulose (BC) under the neutral pH condition. By using this method, poly(dopamine) (PDA) could form a uniform and continuous wrapped layer on the BC nanofiber that can prevent the aggregation of PDA caused by rapid polymerization under the conventional alkaline condition. In a...
Soft conductive nanocomposites have introduced significant breakthroughs in bio-integrated electroni...
Flexible and lightweight electrodes were prepared using a two-step process. First, poly(3,4-ethylene...
The amalgamation of flexible electronics in biological systems has shaped the way health and medicin...
Metal-based electrodes, despite being the most widely used for biomedical applications, are limited ...
Flexible electrochemical sensors based on electroactive materials have emerged as powerful analytica...
Both sophisticated electronic systems and human biological systems rely on signal transduction and t...
Fiber-based organic electrochemical transistors (FECTs) provide a new platform for the realization o...
Bacterial cellulose (BC) nanofibril network is modified with an electrically conductive polyvinylani...
Development of polymeric biomaterials with tailored properties is essential for expanding biotechnol...
Flexible sensing devices have attracted significant attention for various applications, such as medi...
Conductive polymer is studied intensively in the last several decades. Due to its eminent properties...
In this thesis the development of label-free, non-faradaic, and rapid electronic biosensors based on...
Application of conducting polymers of polypyrrole and polyaniline-cellulose nanocrystal based compos...
A paper-based electrode is a very attractive component for a disposable, nontoxic, and flexible bios...
Polymers have a wide array of applications owing to their limitless tailorable properties. The inher...
Soft conductive nanocomposites have introduced significant breakthroughs in bio-integrated electroni...
Flexible and lightweight electrodes were prepared using a two-step process. First, poly(3,4-ethylene...
The amalgamation of flexible electronics in biological systems has shaped the way health and medicin...
Metal-based electrodes, despite being the most widely used for biomedical applications, are limited ...
Flexible electrochemical sensors based on electroactive materials have emerged as powerful analytica...
Both sophisticated electronic systems and human biological systems rely on signal transduction and t...
Fiber-based organic electrochemical transistors (FECTs) provide a new platform for the realization o...
Bacterial cellulose (BC) nanofibril network is modified with an electrically conductive polyvinylani...
Development of polymeric biomaterials with tailored properties is essential for expanding biotechnol...
Flexible sensing devices have attracted significant attention for various applications, such as medi...
Conductive polymer is studied intensively in the last several decades. Due to its eminent properties...
In this thesis the development of label-free, non-faradaic, and rapid electronic biosensors based on...
Application of conducting polymers of polypyrrole and polyaniline-cellulose nanocrystal based compos...
A paper-based electrode is a very attractive component for a disposable, nontoxic, and flexible bios...
Polymers have a wide array of applications owing to their limitless tailorable properties. The inher...
Soft conductive nanocomposites have introduced significant breakthroughs in bio-integrated electroni...
Flexible and lightweight electrodes were prepared using a two-step process. First, poly(3,4-ethylene...
The amalgamation of flexible electronics in biological systems has shaped the way health and medicin...