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Three-Dimensional Polymeric Biointerface for Ultra-Sensitive and Selective Detection of Low-Molecular-Weight Biomarker Using Semiconductor-Based Biosensor

机译：用于使用基于半导体生物传感器的超敏感和选择性检测低分子重量生物标志物的三维聚合物生物界面

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In this study, we report a novel approach towards a highly sensitive and selective detection of low-molecular-weight biomolecules. An extended-Au gate field-effect transistor biosensor showed a high detection sensitivity to various biomolecules; therefore, a chromatographic effect was supplied with polymeric membranes (polyfilter) on the Au gate surface so that only a small biomolecule as target (L-cystine as model) reached the sensing surface through the polymeric membrane, while the polymeric membrane as a filter captured various impurities (L-DOPA as model) outside the Debye length. As a result, the detection limit of the sensor towards L-DOPA was significantly suppressed by the filter-coated sensor, while not affecting the limit of L-cysteine detection. Thus, the possibility of both an ultra-sensitive detection of small biomolecules and a filtering effect was clearly verified.

机译：在这项研究中，我们向低分子量生物分子进行了高度敏感和选择性检测的新方法。扩展-AU门场效应晶体管生物传感器对各种生物分子显示出高的检测灵敏度;因此，在Au栅极表面上用聚合物膜（多滤器）供应色谱效应，使得仅作为靶（L-胱氨酸作为模型）的小生物分子通过聚合物膜达到感测表面，而聚合物膜作为捕获的过滤器在德比长度之外的各种杂质（L-DOPA为模型）。结果，通过过滤器涂覆的传感器显着抑制了传感器朝向L-DOPA的检测限，同时不会影响L-半胱氨酸检测的极限。因此，清楚地验证了小生物分子的超敏检测和过滤效果的可能性。

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《Meeting of the Electrochemical Society》|2018年|99p|共6页
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S. Nishitani; T. Sakata;
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4. Three-Dimensional Polymeric Biointerface for Ultra-Sensitive and Selective Detection of Low-Molecular-Weight Biomarker Using Semiconductor-Based Biosensor [C] . S. Nishitani, T. Sakata Meeting of the Electrochemical Society . 2018

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Three-Dimensional Polymeric Biointerface for Ultra-Sensitive and Selective Detection of Low-Molecular-Weight Biomarker Using Semiconductor-Based Biosensor

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