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Chitosan-based fluorescent inverse opal particles for Cr(VI) sensing

Environmental Studies and Forestry

Chitosan-based fluorescent inverse opal particles for Cr(VI) sensing

H. Su, H. Chen, et al.

Explore the groundbreaking research by Haiwen Su and colleagues on innovative chitosan-based inverse opal particles for detecting hexavalent chromium (Cr(VI)). Their novel approach leverages the natural fluorescence of chitosan, achieving remarkable sensitivity and specificity for Cr(VI) detection. This study showcases a simple and cost-effective solution for environmental sensing, demonstrated with real water samples.... show more
Abstract
Chitosan (CS) is a natural polymer widely used in many fields. However, there are seldom studies that focus on its inherent fluorescence properties. In this work, based on the inherent fluorescence of chitosan (CS) and the mechanism that it can be quenched by hexavalent chromium (Cr(VI)), we developed novel CS-based inverse opal particles (IOPs) for Cr(VI) detection. The CS IOPs were obtained by replicating the silica colloidal crystal beads using CS, which displayed uniform shape and size, as well as enhanced fluorescence-emission capability resulted from the unique microstructure. Under the optimized conditions, the CS IOPs responded to Cr(VI) in a range of 0–10,000 µM with high sensitivity and specificity and demonstrated a LOD of 0.055 µM at the linear range of 0–30 µM. Furthermore, they displayed good detection ability in practical applications with recoveries of 86–106% for tap water and 99.7–107.3% for pond water, respectively. With these features, the developed CS IOPs are promising to be a simple, low-cost, and fast platform for detecting Cr(VI).
Publisher
npj Clean Water
Published On
Oct 30, 2023
Authors
Haiwen Su, Hong Chen, Baojie Wen, Ling Lu, Dagan Zhang, Huan Wang
DOI
https://doi.org/10.1038/s41545-023-00283-5
Tags
chitosan
inverse opal particles
hexavalent chromium
fluorescence detection
environmental sensing
sensitivity
specificity

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