Silicon Nanowires-Based Fluorescence Sensor for Cu(II)
Mu MuShiJack C. ChangShuit‐Tong Lee
Abstract
Si nanowires (SiNWs) were covalently modified by fluorescence ligand, N-(quinoline-8-yl)-2-(3-triethoxysilyl-propylamino)-acetamide (QlOEt) and finally formed an optical sensor to realize a highly sensitive and selective detection for Cu(II). The QlOEt-modified SiNWs sensor has sensitivity for Cu(II) down to 10(-8) M, which is more sensitive than QlOEt alone. Metal ions interferences have no observable effect on the sensitivity and selectivity of QlOEt-modified SiNWs sensor. The SiNWs-based fluorescence sensor is reversible by addition of acid to replace Cu(II). The sensing mechanisms of QlOEt-modified SiNWs to Cu(II) and the rationale for the increase in sensitivity and selectivity of QlOEt-modified SiNWs over QlOEt on Cu(II) are discussed. The current sensor structure may be extendable to other chemo- and biosensors, and even to nanosensors for direct detection of specific materials in intracellular environment.
Metrics
Citation History
Topics
Related Documents
Fluorescence sensor for Cu(II) based on R6G derivatives modified silicon nanowires
Wenfeng XuLixuan MuRong MiaoTaiping ZhangWensheng Shi
Silicon Nanowires-Based Fluorescence\nSensor for Cu(II)
Mu (8669094)Shi (8227545)Jack C. Chang (2407144)Shuit-Tong Lee (1284303)
Silicon Nanowires Sensor Modified with Cu (II) Phthalocyanine Derivative for Phosphate Monitoring
M. A. JebaliZina FredjS. DaboussiMounir Ben AliM. Hassen
Silicon nanowires for ‘turn-on’ fluorescence detection of Zn(II)
Wenfeng XuLixuan MuHaitao YuanTaiping ZhangWensheng Shi
Silicon Nanowires as pH Sensor
Jung-Fu HsuBohr‐Ran HuangChien-Sheng HuangHsin-Li Chen