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The reported techniques can also be applied to other fields relying onįunctionalized GFETs, such as gas or chemical sensing or infrared imaging. Organic field-effect transistors using single crystals. Jump up to: Hasegawa, Tatsuo Takeya, Jun (2009). This platform offers a truly statisticalĪpproach on GFET based biosensing and further to quantitative and multi-analyte An organic field-effect transistor (OFET) is a field-effect transistor using an organic. Of the sensing platform array with 512 GFETs in simultaneous detection for As an important step towards that, we report wafer-scaleįabrication of CMOS integrated GFET arrays with high yield and uniformity,ĭesigned especially for biosensing applications. Nanomaterials, are among the most promising technologies for label-freeĮlectrical biosensing. Such multiplexed bioassays, whether based on graphene or on other sensitive Statistics require sensor arrays with reduced variability in functionalization. Towards truly quantitative sensors and on-chip bioassays with improved Reliability and require increased statistics. The next steps in industrialization relate to improving The development of CMOSīack end of line integration compatible graphene field-effect transistor (GFET)īased biosensing has been rapid during the last few years, both in terms of theįabrication scale-up and functionalization towards biorecognition from real Readout electronics and extremely large sensor counts. Solutions, offering miniaturized multiplexed sensing arrays with integrated Greatly from complementary metal-oxide semiconductor (CMOS) integrated sensing Towards multiplexed multianalyte detection. Point-of-care diagnostics are transitioning from single analyte detection Download a PDF of the paper titled Wafer-scale graphene field-effect transistor biosensor arrays with monolithic CMOS readout, by Miika Soikkeli and 12 other authors Download PDF Abstract: The reliability of analysis is becoming increasingly important as