Microwave-promoted continuous flow synthesis of thermoplastic polyurethane–silver nanocomposites and their antimicrobial performance

Abstract: Thermoplastic polyurethane-silver nanocomposites (PU-Ag NCs) have considerable potential in many medical applications due to their superior mechanical and antimicrobial properties. Herein, a microwave-promoted flow system is successfully employed for continuous...

“…† 3.4 X-ray uorescence analysis X-ray uorescence analysis is a widely accepted effective method for determining the qualitative and quantitative composition of a material by irradiating the sample with high-energy X-photons and observing the outgoing X-ray uorescence. 15 This approach provides for the accurate identication of chemical elements with atomic numbers ranging from 16 (sulphur) to 92 (uranium). The experimental results indicated that the wt% of the doped element were almost coincides with the actual amount doped into the TiO 2 lattice given in Table 3.…”

“…12,13 Thus, microwave-assisted synthesis is one of the prospective tools to ameliorate the quality of life in the eld of nanoscience and technology, resulting in a substantial advancement in the large-scale synthesis of numerous functional metal oxide nanomaterials with novel structures and properties. 14,15 Also, because microwave radiation is so important and involved in making metal oxide nanomaterials, it can be used to make doped semiconductor nanomaterials that are active in visible light.…”

Microwave assisted sol–gel approach for Zr doped TiO₂ as a benign photocatalyst for bismark brown red dye pollutant

“…† 3.4 X-ray uorescence analysis X-ray uorescence analysis is a widely accepted effective method for determining the qualitative and quantitative composition of a material by irradiating the sample with high-energy X-photons and observing the outgoing X-ray uorescence. 15 This approach provides for the accurate identication of chemical elements with atomic numbers ranging from 16 (sulphur) to 92 (uranium). The experimental results indicated that the wt% of the doped element were almost coincides with the actual amount doped into the TiO 2 lattice given in Table 3.…”

“…12,13 Thus, microwave-assisted synthesis is one of the prospective tools to ameliorate the quality of life in the eld of nanoscience and technology, resulting in a substantial advancement in the large-scale synthesis of numerous functional metal oxide nanomaterials with novel structures and properties. 14,15 Also, because microwave radiation is so important and involved in making metal oxide nanomaterials, it can be used to make doped semiconductor nanomaterials that are active in visible light.…”

Microwave assisted sol–gel approach for Zr doped TiO₂ as a benign photocatalyst for bismark brown red dye pollutant

Numerical investigation of heat transfer and temperature distribution in a Microwave-Heated Heli-Flow reactor and experimental validation

Improved catalytic efficiency by N-doped TiO2 via sol gel under microwave irradiation: Dual applications in degradation of dye and microbes