Microwave dielectric heating affects the in‐situ polymerization process of Nylon‐6/Ag‐NPs hybrid polymer nanocomposite

Abstract: In this work, the microwave synthesis of Nylon-6 hybrid polymeric nanocomposite (HPNC) was studied by the polymerization of ε-caprolactam, 6-aminocaproic acid, and 2% wt of silver nanoparticles (Ag-NPs). It was determined that the dielectric heating (DH) of the Ag-NPs controls the thermal behavior of the HPNCs synthesis and triggers the chemical reaction between Ag-NPs and the Nylon-6 molecules. Such reaction promotes their coating with the polymer and their precipitation, which affects the agitation of the re… Show more

“…Dielectric heating provides a crucial advantage over conventional heating methods as microwaves directly interact with dipoles or ionic molecules present in the reaction mixture, allowing energy transfer to occur in less than a nanosecond (10 −9 s), leading to an instantaneous temperature rise. 38–40 Additionally, microwave irradiation facilitates volumetric heating by directly coupling the electromagnetic field with molecules in the reaction mixture, thereby minimizing or completely avoiding wall effects. 41 This introduction outlines the promising and transformative possibilities that microwave energy offers in advancing research and development across various scientific domains.…”

Recent developments on microwave-assisted organic synthesis of nitrogen- and oxygen-containing preferred heterocyclic scaffolds

“…Dielectric heating provides a crucial advantage over conventional heating methods as microwaves directly interact with dipoles or ionic molecules present in the reaction mixture, allowing energy transfer to occur in less than a nanosecond (10 −9 s), leading to an instantaneous temperature rise. 38–40 Additionally, microwave irradiation facilitates volumetric heating by directly coupling the electromagnetic field with molecules in the reaction mixture, thereby minimizing or completely avoiding wall effects. 41 This introduction outlines the promising and transformative possibilities that microwave energy offers in advancing research and development across various scientific domains.…”

Recent developments on microwave-assisted organic synthesis of nitrogen- and oxygen-containing preferred heterocyclic scaffolds