A review on chitosan/metal oxide nanocomposites for applications in environmental remediation
Ru Jiang, Hua-Yue Zhu, Xiao Zang, Yongqian Fu, Shengtao Jiang, Jianbing Li, Qi Wang
Abstract
A cleaner and safer environment is one of the most important requirements in the future. It has become increasingly urgent and important to fabricate novel environmentally–friendly materials to remove various hazardous pollutants. Compared with traditional materials, chitosan is a more environmentally friendly material due to its abundance, biocompatibility, biodegradability, film–forming ability and hydrophilicity. As an abundant of –NH 2 and –OH groups on chitosan molecular chain could chelate with all kinds of metal ions efficiently, chitosan–based materials hold great potential as a versatile supporting matrix for metal oxide nanomaterials (MONMs) (TiO 2 , ZnO, SnO 2 , Fe 3 O 4 , etc.). Recently, many chitosan/metal oxide nanomaterials (CS/MONMs) have been reported as adsorbents, photocatalysts , heterogeneous Fenton–like agents, and sensors for potential and practical applications in environmental remediation and monitoring. This review analyzed and summarized the recent advances in CS/MONMs composites, which will provide plentiful and meaningful information on the preparation and application of CS/MONMs composites for wastewater treatment and help researchers to better understand the potential of CS/MONMs composites for environmental remediation and monitoring. In addition, the challenges of CS/MONM have been proposed.