Abstract Gold coated porous silicon nanocomposite as a substrate for photoluminescence-based immunosensor suitable for the determination of Aflatoxin B1
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首页> 外文期刊>Talanta: The International Journal of Pure and Applied Analytical Chemistry >Gold coated porous silicon nanocomposite as a substrate for photoluminescence-based immunosensor suitable for the determination of Aflatoxin B1
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Gold coated porous silicon nanocomposite as a substrate for photoluminescence-based immunosensor suitable for the determination of Aflatoxin B1

机译:金涂覆多孔硅纳米复合材料作为用于光致发光的免疫传感器的基材,适用于测定黄曲霉毒素B1

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Abstract A rapid and low cost photoluminescence (PL) immunosensor for the determination of low concentrations of Aflatoxin B1 (AFB1) has been developed. This immunosensor was based on porous silicon (PSi) covered by thin gold layer (Au) and modified by antibodies against AFB1 (anti-AFB1). PSi layer was formed on silicon substrate, then the surface of PSi was covered by 30nm layer of gold (PSi/Au) using electrochemical and chemical deposition methods and in such ways PSi/Au(El.) and PSi/Au(Chem.) structures were formed, respectively. In order to find PSi/Au the most efficiently suitable for PL-based sensor design, structure several different PSi/Au(El.) and PSi/Au(Chem.) structures were designed while using different conditions for electrochemical or chemical deposition of gold layer. It was shown that during the formation of PSi/Au structure crystalline Au nanoparticles uniformly coated the surface of the PSi pores. PL spectroscopy of PSi/Au nanocomposites was performed at room temperature and it showed a wide emission band centered at 700nm. Protein A was covalently immobilized on the surface of PSi/Au(El.) and PSi/Au(Chem.) forming PSi/Au(El.)/Protein-A and PSi/Au(Chem.)/Protein-A structures, respectively. In the next step PSi/Au(El.)/Protein-A and PSi/Au(Chem.)/Protein-A structures were modified by anti-AFB1 and in such way a structures (PSi/Au(El.)/Protein-A/anti-AFB1 and PSi/Au(Chem.)/Protein-A/anti-AFB1) sensitive towards AFB1 were designed. The PSi/Au(El.)/Protein-A/anti-AFB1- and PSi/Au(Chem.)/Protein-A/anti-AFB1-based immunosensors were tested in a wide range of AFB1 concentrations from 0.001 upon 100ng/ml. Interaction of AFB1 with PSi/Au(El.)/Protein-A/anti-AFB1- and PSi/Au(Chem.)/Protein-A/anti-AFB1-based structures resulted PL quenching. The highest sensitivity towards AFB1 was determined for PSi/Au(El.)/Protein-A/anti-AFB1-based immunosensor and it was in the range of 0.01–10ng/ml. The applicability of PSi/Au-based structures as new substrates suitable for PL-based immunosensors is discussed. Graphical abstract Display Omitted Highlights ? Photoluminescence (PL) immunosensor based on of gold/porous Si sensitive towards Aflatoxine B1 (A
机译:<![CDATA [ 抽象 一种快速和低成本的光致发光(PL)免疫型低浓度黄曲霉毒素B1(AFB1)已经开发的的确定。这种免疫基于通过薄的金层(Au)的覆盖和修饰的抗体通过针对AFB1(抗AFB1)多孔硅(PSI)。形成硅衬底上的PSi层,然后的PSi的表面覆盖30 的使用电化学和化学沉积方法金(PSI / Au)的并且在这样的方式的PSi纳米层/金致发光(EL)。和PSI /金(化学式)形成的结构,分别。为了找到PSI /金最有效地适用于基于PL的传感器设计,结构几种不同的PSI /金致发光(EL)。和PSI /金(化学式)结构,同时使用金层的电化学或化学沉积不同的条件而设计的。结果表明的PSi的形成过程中/ Au结构的结晶的Au纳米颗粒均匀地涂布将PSI的表面孔隙。在室温下进行的PSi / Au的纳米复合材料的PL光谱,它显示一个宽的发射频带的中心在700 纳米。蛋白A共价固定的PSI /金的表面上的致发光(EL)。和PSI /金(。化学) 形成PSI /金致发光(EL)。 /蛋白A和PSI /金(化。) /蛋白A的结构,分别。在下一步骤中的PSI /金致发光(EL)。 /蛋白A和PSI /金(化学)< / CE:INF LOC = “POST”>致发光(EL) /蛋白A INF> /蛋白A结构经抗AFB1并且在结构(PSI /金(化学) /蛋白A /设计朝向AFB1抗AFB1)很敏感。的PSI /金(E1)中 /蛋白A /抗AFB1-和PSI /金(化):毫微克/毫升为基础的抗AFB1 /蛋白A /免疫传感器是在一个宽范围的AFB1浓度在100 测试为0.001。 AFB1的相互作用与PSI /金(E1)中 /蛋白A /抗AFB1-和PSI /金 (化学)类抗AFB1 /蛋白A /结构导致PL猝灭。朝AFB1最高灵敏度为PSI /金确定(E1)中 /蛋白A /类抗AFB1免疫,它是在0.01的范围内-10 毫微克/毫升。 Au基PSI /结构作为适合于基于PL的免疫传感器的新底物的适用性讨论 图形抽象 显示中省略 亮点 光致发光(PL)免疫基于金/多孔Si向黄曲毒素B1敏感(A

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