3 By using a padder, the nano-particles are attached to the fabri

3 By using a padder, the nano-particles are attached to the fabrics which is adjusted to suitable pressure and speed, followed by curing and drying. Textiles are omnipresent to us, covering our skin and environments by not only giving protective shield but they also serve artistic appeal and cultural value. Smart clothes were created from intelligence to textiles which are added from advances in material science. They have fascinated because of their potential applications such as in dust and germ free clothing,4 cooling systems,5 electrotherapy,6 heat generation,7 health monitoring shirts, drug delivery,8 data transfer in clothing, electro chromic display, MK-8776 datasheet sensors and military applications like

stealth technology. This smart textiles can be differentiated into three subtypes,9 acting as sensors where as active smart textiles can sense and react to the stimuli from the environment, and have an actuator function and very smart textiles, having the reward to alter their behavior to the situations where else passive smart textiles can only sense the environment. Furthermore, for the development of smart nanotextiles there are some suitable materials such IGF-1R inhibitor as inherently conducting polymers (ICPs), carbon nanotubes (CNT) and a number of materials in the form of nano-particles

or nanofibers.10 A type of ionic electro active polymer which changes the shape by mobility or diffusion of ions and conjugated substances defined as inherently conductive polymers.11 Polyacetylene, polypyrrole, polyaniline and polythiophene are usually used ICPs12 but Polyaniline (PANi) is one of the most commonly studied ICP. It has three possible oxidation states and is relatively steady in the environment.10 In smart nanotextiles, especially polyaniline and polypyrrole may have a vital role in remote monitoring those undergoing rehabilitation or chronically ill patients. Besides that, to build up materials with motor functions a combination of ICP actuators in textiles can be used.10 ICPs can also mimic

and increases the sensory system of the skin by sensing external stimuli-including proximity, touch, pressure, temperature, and chemical or biological substances.3 Studies have been done by using anti-bacterial agents in textiles such as, Thalidomide nano-sized silver,13 titanium dioxide14 and zinc oxide.15 The number of particles per unit area is increased with the use of nano-sized particles, so can maximize the anti-bacterial effects. A very big relative surface area can be caused by the nano-sliver particles. So, this will leads to rise in their contact with bacteria or fungi. Furthermore, greatly improving their antimicrobial efficiency which is usually applied to socks in order to prohibit the growth of bacteria. Synthetic compounds that have one or more azoles rings with three nitrogen atoms in the five membered rings known as antifungal triazoles.

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