Suchinda Chotiradsirikun scite author profile

In this study, nanocomposite poly(lactic acid) and poly(butylene adipate‐co‐terephthalate) (PLA/PBAT) blends were prepared through polymer blending in the presence of multi‐functional epoxy as a compatibilizer that could react with epoxy group and terminated end group of two phases to increase interfacial adhesion between PLA and PBAT and improve the toughness of PLA. The effects of porous clay heterostructure from mixed CTAB:CTAC surfactant in the mole ratio of 1:2 (B1C2‐PCH) were also investigated. The elongation at break of the blends reached 38%, which was eight times that of neat PLA. The cryo‐fractured surface demonstrated the interfacial adhesion caused by the interaction of the epoxy group of the reactive compatibilizer with the terminal carboxyl and hydroxyl groups of PLA and PBAT. Moreover, PBAT reduced the crystallization rate and percent crystallinity of the PLA matrix and further decreased when compatibilizer was used. Alternatively, B1C2‐PCH accelerated the heterogeneous nucleation and crystallization of the nanocomposite films. After adding small amount of B1C2‐PCH, the nanocomposite films demonstrated excellent dielectric properties. Therefore, the improvement of PLA/PBAT nanocomposite blends are capable to be further developed as polymeric capacitor films.

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Biodegradable nanocomposite derived from PLA/PBAT blends with transition metal cation-doped porous clay heterostructures for flexible capacitor applications

Chotiradsirikun

Guo

Bhalla

et al. 2022

Ferroelectrics

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Suchinda Chotiradsirikun

Novel synthesis route of porous clay heterostructures via mixed surfactant template and their dielectric behavior

Significant increases in the dielectric properties of Zn2+-modified porous clay and bacterial cellulose composite sheets

Improvement of compatibility, mechanical, thermal and dielectric properties of poly(lactic acid) and poly(butylene adipate‐co‐terephthalate) blends and their composites with porous clay heterostructures from mixed surfactant systems

Biodegradable nanocomposite derived from PLA/PBAT blends with transition metal cation-doped porous clay heterostructures for flexible capacitor applications

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