Formation Features of Polymer-Metal-Carbon Ternary Electromagnetic Nanocomposites Based on Polyphenoxazine.
Sveta Zhiraslanovna OzkanValeriy PetrovAndrey Aleksandrovich VasilevPetr ChernavskiiMikhail Nikolaevich EfimovDmitriy MuratovGalina PankinaGalina Petrovna KarpachevaPublished in: Polymers (2023)
Novel ternary hybrid polyphenoxazine (PPOA)-derived nanocomposites involving Co-Fe particles and single-walled (SWCNTs) or multi-walled (MWCNTs) carbon nanotubes were prepared and investigated. An efficient one-pot method employing infrared (IR) heating enabled the formation of Co-Fe/CNT/PPOA nanocomposites. During this, the dehydrogenation of phenoxazine (POA) units led to the simultaneous reduction of metals by released hydrogen, yielding bimetallic Co-Fe particles with a size range from the nanoscale (5-30 nm) to the microscale (400-1400 nm). The synthesized Co-Fe/CNT/PPOA nanomaterials exhibited impressive thermal stability, demonstrating a half-weight loss at 640 °C and 563 °C in air for Co-Fe/SWCNT/PPOA and Co-Fe/MWCNT/PPOA, respectively. Although a slightly broader range of saturation magnetization values was obtained using MWCNTs, it was found that the type of carbon nanotube, whether an SWCNT (22.14-41.82 emu/g) or an MWCNT (20.93-44.33 emu/g), did not considerably affect the magnetic characteristics of the resulting nanomaterial. By contrast, saturation magnetization escalated with an increasing concentration of both cobalt and iron. These nanocomposites demonstrated a weak dependence of electrical conductivity on frequency. It is shown that the conductivity value for hybrid nanocomposites is higher compared to single-polymer materials and becomes higher with increasing CNT content.
Keyphrases
- carbon nanotubes
- visible light
- metal organic framework
- reduced graphene oxide
- weight loss
- photodynamic therapy
- risk assessment
- gold nanoparticles
- magnetic resonance imaging
- high resolution
- atomic force microscopy
- body mass index
- drinking water
- heavy metals
- walled carbon nanotubes
- molecularly imprinted
- insulin resistance
- glycemic control
- health risk assessment