M. L. Rodriguez-Mendez, C. Medina-Plaza, C. García-Hernández, J. Saja, J. Fernández-Escudero, E. Barajas-Tola, G. Medrano
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引用次数: 10
摘要
基于酞菁的伏安传感器和生物传感器阵列已被开发并用于分析葡萄酒和葡萄。采用Langmuir-Blodgett (LB)、Layer by Layer (LbL)或电沉积法制备的纳米结构传感器具有较高的活性位点数量。LB和LbL技术可用于共沉积电催化材料,以获得协同的电催化效果。此外,LB和LbL可以用来固定酶在由两亲性脂质形成的仿生结构中。这种传感器显示出更高的选择性。酞菁作为电子介质的存在提高了传感器的性能。将传感器和生物传感器结合在同一阵列中提供了传统酞菁传感器的优点,并具有生物传感器典型的酶-底物反应的特异性。当含有葡萄糖氧化酶或酪氨酸酶的生物传感器加入阵列时,电子舌的选择性和识别能力明显提高。
Analysis of grapes and wines using a voltammetric bioelectronic tongue: Correlation with the phenolic and sugar content
Arrays of voltammetric sensors and biosensors based on phthalocyanines have been developed and used to analyze wines and grapes. Nanostructured sensors prepared by the Langmuir-Blodgett (LB), Layer by Layer (LbL) or electro-deposition are superior because the high number of active sites. The LB and the LbL techniques can be used to co-deposit electrocatalytic materials to obtain a synergistic electrocatalytic effect. Moreover, LB and LbL can be used to immobilize enzymes in a biomimetic structure formed by amphiphilic lipids. Such sensors show an enhanced selectivity. The presence of phthalocyanines as electron mediators improves the performance of the sensors. Combining sensors and biosensors in the same array provides the advantages of classical phthalocyanine based-sensors, with the specificity of the enzyme-substrate reaction typical of biosensors. The selectivity of the electronic tongue and its capability of discrimination are clearly improved when biosensors containing glucose oxidase or tyrosinase are included in the array.
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