Electronics with skin-or tissue-like mechanical properties, including low stiffness and high
stretchability, can be used to create intelligent technologies for application in areas such as …

Human beings have a greater need to pursue life and manage personal or family health in
the context of the rapid growth of artificial intelligence, big data, the Internet of Things, and …

Conducting polymers (CPs), thanks to their unique properties, structures made on-demand,
new composite mixtures, and possibility of deposit on a surface by chemical, physical, or …

Field-effect transistor biosensors (Bio-FET) have attracted great interest in recent years
owing to their distinctive properties like high sensitivity, good selectivity, and easy integration …

Smart and intelligent designs beyond conventionality of the biosensors offer promising
prospects for portable, flexible, multifunctional, and efficient operation which enable to …

Organic electronic materials have been considered for a wide-range of technological
applications. More recently these organic (semi) conductors (encompassing both conducting …

In this review, we discuss chemical, physical and electrochemical properties of pH-sensitive
polymers and organic materials and their sensing mechanisms for healthcare applications …

Continuous, real-time monitoring of the level of pH and free chlorine in drinking water is of
great importance to public health. However, it is challenging when conventional analytical …

Inkjet‐printing is one of the most important fabrication techniques in the field of printed
electronics. Its main advantages include the possibility of fabricating, at ambient conditions …

Organic electronic transistors are rapidly emerging as ultrahigh sensitive label‐free
biosensors suited for point‐of‐care or in‐field deployed applications. Most organic …