In this study, the combination of hydrothermal microwave technology and high-temperature method was used to efficiently control the formation of M-phase vanadium dioxide (VO2) nanoparticles, which were promising materials for optoelectronic switches and smart windows due to their excellent optoelectronic properties during the phase transition. The phase state and structure of VO2 depended on its synthesis parameters, and the results showed that the optimal conditions for VO2(B) synthesis in a hydrothermal microwave were 120 ℃ for 2 h, which was a novel method for efficiently preparing VO2(B) at a low temperature. By vacuum annealing, VO2(B) could be transformed into monoclinic VO2(R), where VO2(R) converts into VO2(M) on cooling to room temperature. Furthermore, the phase transition temperature of W-Mo co-doped VO2(M) decreased by 14.8 °C, showing that the incorporation of W-Mo elements into the VO2-based structure affects the material's phase transition temperature.
In this study, a simple and environmentally stable method was developed to synthesize silver Nanoparticles (AgNPs). In addition, carex meyeriana kunth was used as a reducing and stabilizing agent with good bacterial inhibitory effects against Escherichia coli (E. coli) and Bacillus subtilis at very low doses. AgNPs were added to the Polyvinyl Alcohol (PVA) solution as an antibacterial agent and AgNPs-loaded PVA hydrogel (gel) was formed using the freeze-thaw method. The hydrogel containing AgNPs had a powerful antibacterial effect and the PVA/Ag hydrogel was tested as a trauma dressing, which is a promising composite material for development.
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