Titlebook: Outlook and Challenges of Nano Devices, Sensors, and MEMS; Ting Li,Ziv‘Liu Book 2017 Springer International Publishing AG 2017 FinFET devi

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AC Random Telegraph Noise (AC RTN) in Nanoscale MOS Devicesflat-panel displays because of their high mobility, low-temperature fabrication process, and spatial uniformity of device characteristics. In this chapter, we review the development and operating principles of the metal oxide semiconductor TFTs, as well as the compact-modeling framework. For both th

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Passivation and Characterization in High-k/III–V Interfacesstors (MOSFETs) because of their high mobility. However, compared with Si-MOSFETs, lack of high quality high-k gate stack hampers the development of III–Vs MOSFETs. Therefore, for high-k/III–Vs, interface passivation and characterization become very important to realize high-performance devices..In

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Low Trigger Voltage and High Turn-On Speed SCR for ESD Protection in Nanometer Technologygate oxide reduces largely. It is imperative to reduce the trigger voltage and improve the turn-on speed of the SCR for ESD protection. In order to reduce the trigger voltage, a novel gate-coupled silicon-controlled rectifier (GCSCR) device is proposed without using an external trigger circuit. In t

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Effect of Nanoscale Structure on Reliability of Nano Devices and Sensors chapter, to enhance to a major roadblock of TFET i.e. the lower on-state current, hetero gate dielectric (HD) engineering has been amalgamated onto cylindrical gate all around GAA TFET. The reliability issues of both the devices i.e. GAA TFET and HD GAA TFET have been discussed. To study the reliab

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The Application of Graphene in Biosensorsally, its higher sensitivity and stronger selectivity presents exciting and bright prospects for biomedical detection applications. From 2008, piles of teams set foot to study graphene applications in biosensors and significant progress has been made. Here we will introduce the applications of graph

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Graphene for Future High-Performance Gas Sensingperties such as high conductivity, large surface areas and high sensitivity to electrical perturbations from gas molecules. This book chapter discusses and summarizes recent advancement of Gr-based gas sensors from basic principles to applications. The performance of Gr-based gas sensors can be opti