过氧化氢
蒽
干扰(通信)
纳米技术
材料科学
六方晶系
干扰滤波器
纳米颗粒
纳米-
光电子学
光化学
化学
结晶学
电信
计算机科学
有机化学
波长
频道(广播)
复合材料
作者
Zhaoru Shang,Meimei Wang,Honghong Li,Jiahao Dong,Luyan Yang,Xincun Dou,Baiyi Zu
标识
DOI:10.1021/acsanm.5c02445
摘要
The exploration of efficient hazardous chemical sensing technology is of great importance to protect the environment and maintain public security. Here, a design strategy of a trimode upconversion nanoprobe was developed for H2O2 detection through establishing the inner filter effect (IFE) between the anthracene-based probes and the NaYF4:Yb/Tm/Er upconversion nanoparticles (UCNPs). The trimode nanoprobe exhibits superior H2O2 detection performance, including a low limit of detection (LOD) of 152 nM, fast response (<3 s), outstanding selectivity, and robust anti-interference ability even in the presence of 15 common interferents. Furthermore, the practical utility of this design is conclusively demonstrated through a sensing chip capable of accurately and selectively identifying H2O2 even in the presence of more than 7 types of coexisting multicolor interferents. This sensing strategy, characterized by its strong anti-interference capability even when facing extremely complex real-world samples, is expected to establish a promising framework for ultra-accurate detection of hazardous substances.
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