This research involves investigation of an optimal scalable architecture for compound semiconductor based quantum-well transistors QWFETs in the narrow gap CS materials space. This research is directed at demonstrating the minimum energy-delay product performance of inter-band tunneling transistors that can be realized by using narrow and direct gap high mobility heterostructure materials, such as InxGa1-xAs 0.
A novel chip-scale ultra-sensitive magnetic sensor, MagnetoElectric Flexural Gate Transistor MEFGT capable of measuring pico Tesla biomagnetic field and capable of operating at room temperature has been developed in this research program.
This research project focuses on radiation induced single-event upset SEU in emerging devices. Many emerging nanoscale devices, charge or alternate state variable based, exhibit low transconductance and output resistance under very low operating voltage conditions, making it essential to reconsider device design in conjunction with new logic representation. To circumvent the limited device gain related issues at low voltages, we are exploring a novel interconnectless binary decision diagram BDD based logic architecture based on 2 classes of building blocks such as wrapped gate nanowires and split gate nanodots.
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This single atomic sheet of carbon atoms that provides the confinement is called graphene. Jo, I. Mannoor, M. Institutional Login. Google Scholar 38 Petrone, N. Journal of Materials Chemistry C Neither your address nor the recipient's address will be used for any other purpose.
Navigation Research. Emerging Device Architectures There are several ongoing research projects in our group related to energy efficient nanoelectronics. Graphene based RF Devices and Circuits This research focuses on the fabrication and optimization of graphene based devices for practical applications.
Graphene has emerged as a potential candidate to replace traditional CMOS for a this book presents the latest advances in graphene nanoelectronics and the . Graphene Nanoelectronics: From Materials to Circuits [Raghu Murali] on Amazon .com. *FREE* shipping on qualifying offers. Graphene has emerged as a.
Free Preview. Describes the transport properties of graphene Includes a detailed discussion of alternative state variables such as spin and excitons Provides insight into graphene transistors and interconnects for both analog and digital electronics Presents the latest advances in graphene growth by various techniques - epitaxial growth, chemical vapor deposition and chemical methods see more benefits.
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Rent the eBook. FAQ Policy. About this book Graphene has emerged as a potential candidate to replace traditional CMOS for a number of electronic applications; this book presents the latest advances in graphene nanoelectronics and the potential benefits of using graphene in a wide variety of electronic applications.