具有喷墨打印氧化石墨烯支撑系统的高选择性有机晶体管生物传感器。

Highly selective organic transistor biosensor with inkjet printed graphene oxide support system.

作者信息

Lee Dong-Hoon, Cho Hee-Sang, Han Dawoon, Chand Rohit, Yoon Tae-Jong, Kim Yong-Sang

机构信息

School of Electronic and Electrical Engineering, Sungkyunkwan University, Suwon, Gyeonggi 16419, South Korea.

出版信息

J Mater Chem B. 2017 May 21;5(19):3580-3585. doi: 10.1039/c6tb03357a. Epub 2017 Apr 26.

DOI:10.1039/c6tb03357a

PMID:32264295

Abstract

Most of the reported field effect transistors (FETs) fall short of a general method to uniquely specify and detect a target analyte. For this reason, we propose a pentacene-based FET with a graphene oxide support system (GOSS), composed of functionalized graphene oxide (GO) ink. The GOSS with a specific moiety group to capture the biomaterial of interest was inkjet printed on the pentacene FET. It provided modular receptor sites on the surface of pentacene, without alteration of the device. To evaluate the performance of a GOSS-pentacene FET biosensor, we detected the artificial DNA and circulating tumor cells as a proof-of-concept. The mobility of the FET dramatically changed upon capturing the target biomolecule on the GOSS. The FET exhibited high selectivity with 0.1 pmoles of the target DNA and a few cancer cells per detection volume. This study suggests a valuable sensor for medical diagnosis that can be mass produced effortlessly at low-cost.

摘要

大多数已报道的场效应晶体管（FET）都缺乏一种通用方法来唯一地指定和检测目标分析物。因此，我们提出了一种基于并五苯且带有氧化石墨烯支撑系统（GOSS）的场效应晶体管，该系统由功能化氧化石墨烯（GO）墨水组成。带有特定部分基团以捕获感兴趣生物材料的GOSS通过喷墨打印在并五苯场效应晶体管上。它在并五苯表面提供了模块化的受体位点，而不会改变器件。为了评估GOSS-并五苯场效应晶体管生物传感器的性能，我们检测了人工DNA和循环肿瘤细胞作为概念验证。当在GOSS上捕获目标生物分子时，场效应晶体管的迁移率发生了显著变化。该场效应晶体管对每检测体积0.1皮摩尔的目标DNA和少数癌细胞表现出高选择性。这项研究表明了一种有价值的用于医学诊断的传感器，它可以低成本轻松地大规模生产。

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具有喷墨打印氧化石墨烯支撑系统的高选择性有机晶体管生物传感器。

Highly selective organic transistor biosensor with inkjet printed graphene oxide support system.

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