Simultaneous Enhancements of UV-Shielding Properties and Photostability of Poly(vinyl alcohol) via Incorporation of Sepia Eumelanin
Citations Over TimeTop 1% of 2016 papers
Abstract
Sepia eumelanin (SE), a biomacromolecule, was developed to prepare the excellent UV-shielding polymer material with better photostability. UV–vis transmittance spectra showed that poly(vinyl alcohol) PVA/SE film blocked most ultraviolet light below 300 nm even with a low concentration of SE (0.5 wt %), which still kept its high transparency in the visible spectrum. Rhodamine B photodegradation measurement further confirmed the excellent UV-shielding properties of PVA/SE film. FTIR indicated that the carbonyl absorption bands resulting from phtodegradation for PVA/SE film did not change after UV exposure for 2700 h. The tensile properties of neat PVA were deceased intensely after UV irradiation; however, those of PVA/SE film were reduced a little. Moreover, AFM indicated that the surface roughness of PVA/SE film was much lower than that of a neat PVA one. It could be concluded that SE reduced the PVA degradation rate dramatically, revealing enhanced photostability of PVA/SE film. The mechanism for outstanding UV-shielding properties and photostability of PVA/SE film was illuminated, based on the formation of charge transfer complexes (CTCs) between SE and PVA, photothermal conversion, and the well-known radical scavenging capabilities of SE.
Related Papers
- Polymer Photodegradation: Mechanisms and experimental methods(2012)
- → Enhanced photodegradation of bisphenol A in the presence of β‐cyclodextrin under UV light(2006)21 cited
- → Photodegradation Des Pesticides a L'Etat Adsorbe: Photodegradation du Phenmediphame Photodegradation of Pesticides on Adsorbed Phases: Photodegradation of Phenmedipham(1995)4 cited
- → Photodegradation Des Pesticides a L'Etat Adsorbe: Photodegradation du Phenmediphame Photodegradation of Pesticides on Adsorbed Phases: Photodegradation of Phenmedipham(1995)1 cited
- The Photodegradation of Phenanthrene on Soil Surface Under UV Light(2009)