Robust and stretchable Ti3C2Tx MXene/PEI conductive composite dual-network hydrogels for ultrasensitive strain sensing

“…Gel-type materials comprise a polymer network and a solution containing a large number of ions and have remarkable flexibility, excellent adhesion to the skin, and strong biocompatibility, making them ideal candidates for the manufacture of sensors and devices that can be attached to the human body or even implanted [89][90][91][92] . Based on the material system of polymer networks + ionic solutions, they can be classified into three main categories: hydrogels, organogels, and organohydrogels [93] [Figure 6A]. ; (B) the preparation process, structure, sensing mechanism and performance of TGASSs [83] ; (C) the structure and performance of the PDMS/graphene/PDMS sensor [84] .…”

Latest developments and trends in electronic skin devices

“…Gel-type materials comprise a polymer network and a solution containing a large number of ions and have remarkable flexibility, excellent adhesion to the skin, and strong biocompatibility, making them ideal candidates for the manufacture of sensors and devices that can be attached to the human body or even implanted [89][90][91][92] . Based on the material system of polymer networks + ionic solutions, they can be classified into three main categories: hydrogels, organogels, and organohydrogels [93] [Figure 6A]. ; (B) the preparation process, structure, sensing mechanism and performance of TGASSs [83] ; (C) the structure and performance of the PDMS/graphene/PDMS sensor [84] .…”

Latest developments and trends in electronic skin devices

Flexible multifunctional polydimethylsiloxane composites with segregated structure fabricated by hydrophobic interaction for efficient electromagnetic interference shielding