Highly dispersible surface-modified magnesium oxide nanoparticle-acrylate nanocomposites as a transparent OLED encapsulation material

“…Overall, P­(dtHPLA) NPs can be a novel therapeutic agent because the PLA present in the nanoparticle is free from tin­(II), being replaced with Mg, which helps increase the encapsulation efficiency of dmH compounds and in site-specific drug delivery for cancer theranostics. − The NPs containing Mg showed excellent biocompatibility and stability and low IC50 values in comparison to copper, manganese, tin, and cobalt nanoparticles. Mg-based nanocomposites like MnO with the surface modified with long hydrocarbon chains exhibited high optical properties and encapsulation efficiency (transmittance: 94.9%). − The developed NPs, consisting of P­(dmHP LA ) NPs and P­(dtHP LA ) NPs, were synthesized by the solvent emulsification method with slight modifications. They were then subjected to UV–vis spectroscopy, giving peaks at 303 and 306 nm, respectively.…”

Magnesium-Catalyzed Dye-Embedded Polylactide Nanoparticles for the Effective Killing of Highly Metastatic B16F10 Melanoma Cells

“…Overall, P­(dtHPLA) NPs can be a novel therapeutic agent because the PLA present in the nanoparticle is free from tin­(II), being replaced with Mg, which helps increase the encapsulation efficiency of dmH compounds and in site-specific drug delivery for cancer theranostics. − The NPs containing Mg showed excellent biocompatibility and stability and low IC50 values in comparison to copper, manganese, tin, and cobalt nanoparticles. Mg-based nanocomposites like MnO with the surface modified with long hydrocarbon chains exhibited high optical properties and encapsulation efficiency (transmittance: 94.9%). − The developed NPs, consisting of P­(dmHP LA ) NPs and P­(dtHP LA ) NPs, were synthesized by the solvent emulsification method with slight modifications. They were then subjected to UV–vis spectroscopy, giving peaks at 303 and 306 nm, respectively.…”

Magnesium-Catalyzed Dye-Embedded Polylactide Nanoparticles for the Effective Killing of Highly Metastatic B16F10 Melanoma Cells

“…With the rapid development of flexible electronics, flexible display technology has attracted great attention in recent years. Organic light-emitting diodes (OLEDs) are one of the mainstream flexible display devices that have shown great potential in mechanical deformation, display performance, and adaptability to complex environments. − Moreover, OLEDs have excellent characteristics such as high efficiency, bright color, fast response ability, and flexibility, which can well meet the development needs of smart wearable devices and are recognized as one of the most potential candidates for the next-generation display technology. − However, the functional layer, as well as the light-emitting layer, materials in OLED devices are extremely sensitive to water vapor and oxygen and oxidize after being exposed to air, resulting in the severe performance degradation of the whole device. − In order to ensure that the operational stability and lifetime of the OLED devices can meet the commercial requirements, efficient encapsulation of the OLED devices with a low water vapor transmission rate (WVTR) is essential.…”

Design and Fabrication of PDMS/Al₂O₃ Hybrid Flexible Thin Films for OLED Encapsulation Applications

Production of different metal oxide nanoparticle embedded polymer matrix composite structures by the additive manufacturing technology and investigation of their properties