检出限
荧光
量子点
材料科学
量子产额
自来水
碳纤维
猝灭(荧光)
选择性
分散性
分析化学(期刊)
纳米技术
光电子学
纳米结构
线性范围
微流控
纳米材料
产量(工程)
电子转移
碳量子点
光化学
表面电荷
化学
化学工程
石墨烯
碳纳米管
纳米传感器
发光
作者
L. S. Zheng,Rongzhen Ma,Hong Liu,Changsheng Jiang,Cheng Song
标识
DOI:10.1016/j.eti.2025.104597
摘要
A microfluidic-fluorometric platform integrated with carbon dots was developed for the real-time and sensitive detection of Chromium(VI) (Cr 6+ ). Chitosan and o-Phenylenediamine were used as precursors to synthesize nitrogen-doped carbon dots (OPD-CDs) via a solvothermal method. The OPD-CDs exhibited a monodisperse spherical nanostructure with an average diameter of 3.86 ± 0.09 nm, a quantum yield of 36.77%, and a surface enriched with amino and carboxyl functional groups. Cr 6+ induced selective fluorescence quenching through a charge transfer mechanism, where electron donation from surface amines suppressed radiative recombination, accompanied by emission red-shift and increased Stokes shift. Furthermore, quenched OPD-CDs was able to restore fluorescence by adding H 2 O 2 . OPD-CDs demonstrated a detection limit of 0.73 μM and a linear range of 0.2-210 μM under the conventional spectrofluorometry. When incorporated into a microfluidic chip, the OPD-CDs integrated platform achieved a rapid response within 1 minute, a detection limit of 1.04 μM, and high selectivity against 26 potential interfering ions. Spike-recovery tests in tap and river water samples yielded recoveries of 98.6-104.7% (RSD ≤ 2.2%), confirming its practicality for on-site water quality monitoring. This study innovatively merges optoelectronics features of carbon dots with the microfluidic miniaturization, enabling portable and real-time monitoring of Cr 6+ , which highlights critical needs for rapid detection of heavy metals in accidental pollution events and water quality surveillance. • OPD-CDs demonstrated average diameter 3.86 nm with 36.77% quantum yield. • OPD-CDs achieved a detection limit of 0.73 μM and high selectivity against 26 ions. • Cr 6+ induced selective fluorescence quenching through a charge transfer mechanism. • OPD-CDs integrated microfluidics showed rapid Cr 6+ detection within limit of 1.04 μM. • Integrated micofluidics evaluated Cr 6+ in tap/river water with 98.6-104.7% recoveries.
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