What question did this study set out to answer?

The aim is to synthesize and characterize new composite materials using phosphorylated cellulose and cerium dioxide for UV protection.

May 20, 2026

Photoprotective Composites of Phosphorylated Cellulose and Nanoscale Cerium Dioxide

Key Points

The aim is to synthesize and characterize new composite materials using phosphorylated cellulose and cerium dioxide for UV protection.
Synthesis through solution casting under ultrasonic homogenization.
Characterization using PXRD, SEM, and spectroscopy methods.
In vitro testing based on ISO 24443 standard for UV protective capability.
Composites show UV absorption between 400–500 nm with increasing cerium dioxide content.
SPF and UVAPF values improve directly with cerium dioxide concentration.
Composites are biocompatible, highlighting potential for sustainable sunscreen and cosmetic use.

Abstract

This study presents the synthesis and comprehensive characterization of novel composite materials based on phosphorylated cellulose (PC) and nanocrystalline cerium dioxide. The composites were produced via solution casting under ultrasonic homogenization. Analysis by PXRD, SEM, and spectroscopy methods revealed that CeO2 nanoparticles (~6 nm) form uniform aggregates within the PC matrix. The proportion of the amorphous cellulose fraction in the final composites increased with the cerium dioxide content. The composites exhibit an absorption edge at 400–500 nm and pale yellow-beige coloration. In vitro testing (ISO 24443 international standard) confirmed their UV-protective capability, with SPF and UVAPF values correlating directly with CeO2 content. These biocompatible composites show promise for sustainable sunscreens and cosmetic pigments.

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Photoprotective Composites of Phosphorylated Cellulose and Nanoscale Cerium Dioxide

Key Points

Abstract

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