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Highly Stable and Integrable Graphene/Molybdenum Disulfide Heterojunction Field-Effect Transistor-Based miRNA Biosensor

Chen Wang, Ziqian Wang, Ming Gao, Yihan Zhu, Honghai Zhu, Lizhuo Zhou, Yujie Zhou, Xilin Tian, Yi Liu, Yule Zhang, Shuo Sun, Changle Meng, Xiangqian Hong, Yun Wang, Ming‐Min Yang, Ning Fan, Hao Huang, Zhi Chen, Yanqi Ge, Jianqing Li, Ke Jiang, Han Zhang, Meng Qiu, Huide Wang

2025ACS Applied Materials & Interfaces7 citationsDOI

Abstract

MicroRNAs (miRNAs) are important noncoding RNA molecules that participate in gene regulation and are widely associated with the occurrence and development of various cancers. Developing rapid, highly sensitive, low-cost, and highly stable miRNA detection methods is of great significance for clinical diagnosis. Field-effect transistors (FETs) based on two-dimensional (2D) materials have been proven to have great potential in the field of miRNA detection due to their label-free, rapid, highly sensitive, low-power, and portable features. However, biosensors based on 2D material FETs require the application of an external gate voltage in solution, which seriously hinders the integration, miniaturization, and signal stability of the devices. This study proposes a graphene-molybdenum disulfide heterojunction (G/MoS 2 ) FET biosensing platform to detect miRNA-21 and miRNA-155 without the need for an external gate voltage. The results demonstrate a detection time of approximately 30 min, a linear response range spanning from 10 fM to 10 nM, and limits of detection of 6.06 fM for miRNA-21 and 2.59 fM for miRNA-155. Through comparative experiments, the biosensor shows excellent selectivity and can distinguish target miRNAs from nontarget miRNAs. The G/MoS 2 FET biosensor developed in this study provides a technical platform for miRNA detection and has a broad application prospect, especially in the early diagnosis of diseases and the screening of biomarkers.

Topics & Concepts

Molybdenum disulfideBiosensorMaterials scienceNanotechnologymicroRNAField-effect transistorGrapheneHeterojunctionTransistorMiniaturizationDetection limitOptoelectronicsVoltageGeneBiologyElectrical engineeringChemistryBiochemistryChromatographyMetallurgyEngineeringAdvanced biosensing and bioanalysis techniques2D Materials and ApplicationsMXene and MAX Phase Materials
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