碳点表面氧化实现了对羟基自由基的高选择性和高灵敏度化学发光检测

IF 9.5 2区 材料科学 Q1 CHEMISTRY, PHYSICAL
Chan Wang, Yuan Fang, Dongrun Zhou, Chenxi Wu, Han Zhu, Qijun Song
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引用次数: 0

摘要

由于羟基自由基(-OH)的高活性和其他共存活性氧(ROS)的潜在干扰,在实际样品中快速定量羟基自由基(-OH)是一项巨大的挑战。在此,我们合理地开发了一种化学发光(CL)探针(ox-CDs),通过用 H2O2 对原始 CDs(o-CDs)进行受控氧化处理来检测 -OH。氧化后的光盘可以减少光盘表面的缺陷或官能团,从而暴露出能与 -OH 发生有效反应的反应位点。可有效利用-OH 与氧化-CD 之间的氧化还原反应产生的化学能,对-OH 产生强烈的选择性 CL 反应,而不受其他 ROS 的干扰。因此,我们开发了一种高选择性、高灵敏度的 CL 方法,其线性范围为 0.01 至 150 μM,检测限为 3 nM,并成功地应用于监测香烟和蚊香烟雾中 -OH 的产生。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Surface oxidation of carbon dots enables highly selective and sensitive chemiluminescence detection of hydroxyl radical

Surface oxidation of carbon dots enables highly selective and sensitive chemiluminescence detection of hydroxyl radical

The rapid quantification of hydroxyl radical (·OH) in real samples is a great challenge due to its highly reactive nature and the potential interferences from other coexisting reactive oxygen species (ROS). Herein, a chemiluminescence (CL) probe (ox-CDs) was rationally developed for the detection of ·OH through controlled oxidation treatment of original CDs (o-CDs) with H2O2. Post-oxidation of CDs can reduce the surface defects or functional groups on the CDs, exposing reactive sites capable of effectively reacting with ·OH. The chemical energy generated from redox reaction between ·OH and the ox-CDs can be efficiently utilized to generate strong and selective CL responses to ·OH without interferences from other ROS. Thus, a highly selective and sensitive CL method with a linear range from 0.01 to 150 μM and a detection limit of 3 nM was developed, which was successfully applied for monitoring the ·OH production from cigarette and mosquito coil smoke.

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来源期刊
Nano Research
Nano Research 化学-材料科学:综合
CiteScore
14.30
自引率
11.10%
发文量
2574
审稿时长
1.7 months
期刊介绍: Nano Research is a peer-reviewed, international and interdisciplinary research journal that focuses on all aspects of nanoscience and nanotechnology. It solicits submissions in various topical areas, from basic aspects of nanoscale materials to practical applications. The journal publishes articles on synthesis, characterization, and manipulation of nanomaterials; nanoscale physics, electrical transport, and quantum physics; scanning probe microscopy and spectroscopy; nanofluidics; nanosensors; nanoelectronics and molecular electronics; nano-optics, nano-optoelectronics, and nano-photonics; nanomagnetics; nanobiotechnology and nanomedicine; and nanoscale modeling and simulations. Nano Research offers readers a combination of authoritative and comprehensive Reviews, original cutting-edge research in Communication and Full Paper formats. The journal also prioritizes rapid review to ensure prompt publication.
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