| Ti3C2 and reduced graphene oxide |
pressure
sensor |
(1) |
| Ti3C2–Ag nanowire
and polydopamine/Ni2+
|
strain sensor |
(1) |
| Ti3C2 and chitosan |
biosensor for detecting pesticides |
(2) |
| Ti3C2 and Nafion |
detecting nitrile
ions |
(3) |
| Ti3C2 and PANI |
ethanol, methanol, ammonia, and acetone detection |
(5) |
| Ti3C2 and polyurethane |
stretchable strain sensing fabric |
(6) |
| Ti3C2 and poly(vinylidene fluoride-trifluoroethylene) |
capacitive pressure sensor |
(7) |
| Ti3C2 and natural microcapsules |
epidermal flexible pressure sensors |
(8) |
| surface-modified Ti3C2 and epoxidized
natural rubber |
self-healable intelligent sensors |
(9) |
| hollow MXene spheres and reduced graphene |
piezoresistive pressure sensor |
(10) |
| Ti3C2 and ink |
strain sensor for
health monitoring |
(11) |
| modified Ti3C2 and amino poly(dimethylsiloxane) |
elastomeric
wearable strain sensors |
(12) |
| Ti3C2 and poly(vinyl alcohol) |
wearable electronic
sensors for robotic applications |
(13) |
| Ti3C2 and poly(diallyldimethylammonium
chloride) |
humidity sensor |
(14) |
| Ti3C2 and polyacrylamide and poly(vinyl
alcohol) and ethylene glycol |
subzero temperature strain
sensor |
(15) |
| Ti3C2 and poly(dimethylsiloxane) |
skin conformal sensors for health monitoring |
(16) |
| Ti3C2 and modified sodium alginate and
polyacrylamide |
self-healing capability, self-adhesiveness,
moisture retention,
human motion biomonitoring sensor |
(17) |
| Ti3C2
|
NH3 detection |
(18) |
| Ti3C2 and gold nanoparticles |
glucose detection biosensor |
(19) |
| Ti3C2 and TiO2
|
H2O2 detection |
(20) |
