A comprehensive review of FET-based pH sensors: materials, fabrication technologies, and modeling
Soumendu Sinha,Soumendu Sinha,Tapas Pal +2 more
- pp 2100147
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The article was published on 2021-10-03 and is currently open access. It has received 14 citations till now. The article focuses on the topics: ISFET.read more
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Electronic Sensing Platform (ESP) Based on Open-Gate Junction Field-Effect Transistor (OG-JFET) for Life Science Applications: Design, Modeling and Experimental Results
TL;DR: Open-gate junction gate field effect transistor (OG-JFET) as discussed by the authors is a new field effect sensor for biosensing applications, which consists of a p-type channel on top of an n-type layer, which serves as the sensing conductive layer between two ohmic contacted sources and drain electrodes.
Numerical Simulation of ISFET Structures for BioSensing Devices with TCAD Tools.
TL;DR: In this paper, the authors presented a numerical simulation approach to the study of ISFET structures for bio-sensing devices (BioFET) using Synopsys Sentaurus Technology Computer-Aided Design (TCAD) tools.
Journal ArticleDOI
Time-Dependent Sensitivity Tunable pH Sensors Based on the Organic-Inorganic Hybrid Electric-Double-Layer Transistor
Kiwoong Park,Won-Ju Cho +1 more
TL;DR: In this article , an extended gate-type, ion-sensitive, field-effect transistor consisting of a chitosan/Ta2O5 hybrid dielectric EDLT transducer, and an SnO2 sensing membrane, was fabricated to evaluate the sensing behavior at different buffer pH levels.
Journal ArticleDOI
Real-time viral detection through electrolyte-gated field effect transistors: possibility of rapid COVID-19 detection
TL;DR: In this paper , the authors present a comprehensive overview of the major advances in the use of electrolyte-gated field effect transistor-based biosensors for the detection of viruses, including their use for SARS-CoV-2 detection.
References
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Kostya S. Novoselov,A. K. Geim,Sergey V. Morozov,Da Jiang,Mikhail I. Katsnelson,Irina V. Grigorieva,S. V. Dubonos,A. A. Firsov +7 more
TL;DR: This study reports an experimental study of a condensed-matter system (graphene, a single atomic layer of carbon) in which electron transport is essentially governed by Dirac's (relativistic) equation and reveals a variety of unusual phenomena that are characteristic of two-dimensional Dirac fermions.
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Measurement of the Elastic Properties and Intrinsic Strength of Monolayer Graphene
TL;DR: Graphene is established as the strongest material ever measured, and atomically perfect nanoscale materials can be mechanically tested to deformations well beyond the linear regime.
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Ror2 signaling regulates Golgi structure and transport through IFT20 for tumor invasiveness
Michiru Nishita,Seung-Yeol Park,Tadashi Nishio,Koki Kamizaki,ZhiChao Wang,Kota Tamada,Toru Takumi,Ryuju Hashimoto,Hiroki Otani,Gregory J. Pazour,Victor W. Hsu,Yasuhiro Minami +11 more
TL;DR: It is found that intraflagellar transport 20 mediates the ability of Ror2 signaling to induce the invasiveness of tumors that lack primary cilia, and IFT20 regulates the nucleation of Golgi-derived microtubules by affecting the GM130-AKAP450 complex.
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Synthesis of graphene-based nanosheets via chemical reduction of exfoliated graphite oxide
Sasha Stankovich,Dmitriy A. Dikin,Richard D. Piner,Kevin A. Kohlhaas,Alfred Kleinhammes,Yuanyuan Jia,Yue Wu,SonBinh T. Nguyen,Rodney S. Ruoff +8 more
TL;DR: In this paper, a colloidal suspension of exfoliated graphene oxide sheets in water with hydrazine hydrate results in their aggregation and subsequent formation of a high surface area carbon material which consists of thin graphene-based sheets.