| Summary: | To alleviate the problem, a new and unique property for the complex is desirable. Novel hexagonal stratified structures have been observed. This category of hybrid material is prepared with surfactant, polyoxometalate and s-triazine complex through ionic interaction. To know the tenacity of the present study for an inventive property was further studied. A novel technique of shock wave impulsed material was developed in this work; employed to fabricate the FO TFN membrane. The experimental results recommended that notable attention should be paid to the 0.1 wt % POM-AG incorporated TFN membrane which exhibits 9.2 LMH higher pure water flux compared to the composite membranes without shock imposed material incorporation that were synthesized. Those water enhancements of FO membranes could be assigned the presence of the POM-AG, which is allocated evenly throughout the PA active layer. Thus, the formation of porous selective layer is minimized water transport resistance. The dielectric and conduction mechanisms were monitored through dielectric anomalies and intramolecular charge transfer of the covalence of Mo-O and NH+, manifested by dipolar relaxation. An unassociated in intensity originated from the differential of the selective orientation during the analyses of the experimental data for the powder samples. Furthermore, the structural, morphological and thermal properties of hock wave impulsed hybrid material have been investigated using XRD, SEM, FT-IR, TGA, and NMR techniques. However, the FO membrane biological activity was reported above 70%.
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