Highly sensitive and selective detection of naproxen via molecularly imprinted carbon dots as a fluorescent sensor

Ke Li; Min Zhang; Xingyu Ye; Yongming Zhang; Guisheng Li; Rui Fu; Xiaofeng Chen

doi:10.1039/d1ra04817a

Highly sensitive and selective detection of naproxen via molecularly imprinted carbon dots as a fluorescent sensor

RSC Adv. 2021 Aug 31;11(46):29073-29079. doi: 10.1039/d1ra04817a. eCollection 2021 Aug 23.

Authors

Ke Li¹, Min Zhang¹, Xingyu Ye², Yongming Zhang¹, Guisheng Li^{1

2}, Rui Fu³, Xiaofeng Chen¹

Affiliations

¹ School of Environmental and Geographical Sciences, Shanghai Normal University Shanghai 200234 China xiaofengchen@shnu.edu.cn.
² Education Ministry Key and International Joint Lab of Resource Chemistry, Shanghai Key Laboratory of Rare Earth Functional Materials, Shanghai Normal University Shanghai 200234 China.
³ RNA Bioscience Initiative, University of Colorado School of Medicine Aurora CO 80045 USA.

Abstract

The overuse and inappropriate discharge of naproxen, a common anti-inflammatory medication and an emerging contaminant in water, is detrimental to human health and bodies of water. Here, we design a fluorescent sensor based on molecularly imprinted carbon dots (CDs) for highly selective detection of trace amounts of naproxen. The CDs were encapsulated into the pores of silica through a sol-gel based method and provide fluorescent signal. After removal of the template molecules, a molecularly imprinted polymer layer was formed and the fluorescence of the CDs sensor was selectively quenched by naproxen. A detection limit of as low as 0.03 μM and a linear range of 0.05-4 μM for detecting naproxen in aqueous solution were obtained. High recoveries of naproxen levels in waste water and urine samples for practical application were also achieved. In addition, the accurate detection performance of sensor was maintained during the UV degradation of naproxen.