分析化学
分析化學
분석화학
Chinese Journal of Analytical Chemistry
2015年
11期
1682-1687
,共6页
王永红%李发良%王元清%吴顺%何晓晓%王柯敏
王永紅%李髮良%王元清%吳順%何曉曉%王柯敏
왕영홍%리발량%왕원청%오순%하효효%왕가민
TiO2/CNTs纳米复合物%鲁米诺%电致化学发光法%葡萄糖
TiO2/CNTs納米複閤物%魯米諾%電緻化學髮光法%葡萄糖
TiO2/CNTs납미복합물%로미낙%전치화학발광법%포도당
Titanium dioxide/carbon nanotubes nanocomposites%Luminol,Electrochemiluminescence%Glucose
利用二氧化钛/碳纳米管( TiO2/CNTs)纳米复合物对鲁米诺电致化学发光信号的增敏作用发展了一种检测葡萄糖的方法。通过溶胶-凝胶法合成TiO2/CNTs纳米复合物,将其修饰在玻碳电极表面后,发现其能够很好地增强反应体系的电致化学发光强度,H2 O2能与鲁米诺发生反应产生电致化学发光信号,结合葡萄糖在葡萄糖氧化酶作用下所产生的H2 O2对发光体系具有良好的响应特性,可以实现葡萄糖的检测。本方法检测葡萄糖的线性范围为1.0×10-7~5.0×10-6 mol/L,检出限为5.2×10-8 mol/L。本研究为葡萄糖的检测提供了一种灵敏、快速、简便、经济的方法。同时,TiO2/CNTs纳米复合物修饰电极为电致化学发光信号增强提供了一种新材料。
利用二氧化鈦/碳納米管( TiO2/CNTs)納米複閤物對魯米諾電緻化學髮光信號的增敏作用髮展瞭一種檢測葡萄糖的方法。通過溶膠-凝膠法閤成TiO2/CNTs納米複閤物,將其脩飾在玻碳電極錶麵後,髮現其能夠很好地增彊反應體繫的電緻化學髮光彊度,H2 O2能與魯米諾髮生反應產生電緻化學髮光信號,結閤葡萄糖在葡萄糖氧化酶作用下所產生的H2 O2對髮光體繫具有良好的響應特性,可以實現葡萄糖的檢測。本方法檢測葡萄糖的線性範圍為1.0×10-7~5.0×10-6 mol/L,檢齣限為5.2×10-8 mol/L。本研究為葡萄糖的檢測提供瞭一種靈敏、快速、簡便、經濟的方法。同時,TiO2/CNTs納米複閤物脩飾電極為電緻化學髮光信號增彊提供瞭一種新材料。
이용이양화태/탄납미관( TiO2/CNTs)납미복합물대로미낙전치화학발광신호적증민작용발전료일충검측포도당적방법。통과용효-응효법합성TiO2/CNTs납미복합물,장기수식재파탄전겁표면후,발현기능구흔호지증강반응체계적전치화학발광강도,H2 O2능여로미낙발생반응산생전치화학발광신호,결합포도당재포도당양화매작용하소산생적H2 O2대발광체계구유량호적향응특성,가이실현포도당적검측。본방법검측포도당적선성범위위1.0×10-7~5.0×10-6 mol/L,검출한위5.2×10-8 mol/L。본연구위포도당적검측제공료일충령민、쾌속、간편、경제적방법。동시,TiO2/CNTs납미복합물수식전겁위전치화학발광신호증강제공료일충신재료。
Abstract A novel luminol electrochemiluminescence strategy based on titanium dioxide/carbon nanotubes ( TiO2/CNTs) nanocomposites for detection of glucose was developed. First, the TiO2/CNTs nanocomposites were prepared by a sol-gel method and modified on the glassy carbon electrode. The electrochemiluminescence ( ECL) signal could be greatly enhanced when the electrode was established by the nanocomposites, which finally resulted in the increased sensitivity. Glucose oxidase calalyzed the oxidation of glucose to form H2 O2 , and the H2 O2 reacted with luminol to produce the ECL signal. Thus the above system was proved to be efficient for glucose detection. The modified electrode exhibited excellent ECL signals and a good linear range of 1. 0í10-7-5. 0í10-6 mol/L with a detection limit of 5. 2í10-8 mol/L towards glucose detection. This strategy was successfully demonstrated as a sensitive, rapid, simple and cost-effective method to detect glucose. Meanwhile, the TiO2/CNTs nanocomposites offered a novel material for the signal enhancement in electrochemiluminescence sensor.
