By Francis Balestra
This booklet deals a complete evaluate of the state of the art in leading edge Beyond-CMOS nanodevices for constructing novel functionalities, common sense and thoughts devoted to researchers, engineers and students. It quite specializes in the curiosity of nanostructures and nanodevices (nanowires, small slope switches, second layers, nanostructured fabrics, etc.) for complex greater than Moore (RF-nanosensors-energy harvesters, on-chip digital cooling, etc.) and Beyond-CMOS common sense and thoughts purposes.
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Extra resources for Beyond CMOS Nanodevices 1
The nanonets assembled by this method can be easily deposited at room temperature onto various types of substrates: transparent or opaque, conductor or insulating, flexible or rigid. 1. Si NWs fabrication For this work, the silicon nanowires were grown on silicon <1 1 1> substrates by reduced pressure chemical vapor deposition (RP-CVD) using the Au-catalyzed VLS mechanism [WAG 64]. The growth was performed in a CVD furnace Easy TubeTM 3000 from first nano at 650°C under a pressure of 3 torr. Silane (SiH4) was used as the silicon precursor with flow of 40 sccm.
Moreover, no hysteresis is observed on the I(V) curve. The rectifying response observed for both negative and positive applied bias suggests a back-to-back Schottky configuration that possibly originates from a potential barrier at the metal/NW junctions [CHI 12, HER 06]. 9 displays the current as a function of the inter-electrode distance. The systematic decrease with increasing the distance between electrodes suggests that an intrinsic property of the network is measured confirming that the rectifying response is due to Schottky contact between the metallic electrode and the Si nanonet.
Their coverage rate must be homogeneous and adapted to the surface morphology. 2). Chapter written by Valérie STAMBOULI, Céline TERNON, Pauline SERRE and Louis FRADETAL. Beyond-CMOS Nanodevices 1, First Edition. Edited by Francis Balestra. © ISTE Ltd 2014. Published by ISTE Ltd and John Wiley & Sons, Inc. 1. Cartoon of the functionalized nanowire with receptor molecules specifically recognizing targets and giving rise to an electrical signal. 2. Cartoon (cross section) of the functionalized nanowire with charged receptor molecules (in black) specifically recognizing targets (in red) and giving rise to a change of the NW depleted zone In the case of single nanowire for nano-FET biodetection, a localized and selective biomodification process is required.