Highly efficient and durable antimicrobial nanocomposite textile


Figure 1. Comparison of (A) conventional dip-coating process with (B) thermal Crescoating technology. (A) Wet synthesis of nanoparticles by chemical reduction (1), dip-coating of the textile in the nanoparticle (2), followed by washing and drying (3). (B) Impregnation of the textile in precursor solution (1), Thermal reduction by heating the textile at 100 °C (2), followed by washing and drying (3).
Figure 1. Comparison of (A) conventional dip-coating process with (B) thermal Crescoating technology. (A) Wet synthesis of nanoparticles by chemical reduction (1), dip-coating of the textile in the nanoparticle (2), followed by washing and drying (3). (B) Impregnation of the textile in precursor solution (1), Thermal reduction by heating the textile at 100 °C (2), followed by washing and drying (3).

Figure 1. Comparison of (A) conventional dip-coating process with (B) thermal Crescoating technology. (A) Wet synthesis of nanoparticles by chemical reduction (1), dip-coating of the textile in the nanoparticle (2), followed by washing and drying (3). (B) Impregnation of the textile in precursor solution (1), Thermal reduction by heating the textile at 100 °C (2), followed by washing and drying (3).