Liquid metal/CNT nanocomposite coated cotton fabrics for electromagnetic interference shielding and thermal managementCotton fabricLiquid metalCarbon nanotubeSprayingElectromagnetic interference shieldingThermal managementNext-generation smart textiles are regarded as the most straightforward and effective solution to ...
Smart fabrics have attracted considerable attention due to their potential applications. The essential features of smart fabrics include wearability, weaveability, and stretchability, as well as their sensing/response capability, which is frequently based on electrical measurement. Thus, the ...
Calculations based on the discharge graph (Equation (1)) indicate that the CNT/EVA electrode areal capacitance is between 7.66 mF·cm2 and 0.8 mF·cm2 at current densities of 0.1 to 1 mA·cm−2 (Figure 2e). This value is much higher than for the CNT/EVA cotton, CNT paper, and ...
Calculations based on the discharge graph (Equation (1)) indicate that the CNT/EVA electrode areal capacitance is between 7.66 mF·cm2 and 0.8 mF·cm2 at current densities of 0.1 to 1 mA·cm−2 (Figure 2e). This value is much higher than for the CNT/EVA cotton, CNT paper, and ...