Textbook in PDF format

This course text provides comprehensive coverage for fundamental and advanced courses in nanoelectronics. It provides insight into the future of electronics, emerging devices, logic and memory, sensors, systems architecture, nanofabrication, and the fundamental physics behind nanoelectronics.
Welcome to the amazing world of nanoelectronics! Nanoelectronics holds some answers as to how we can increase the capabilities of electronics devices while reducing their weight and power consumption. The International Technology Roadmap for Semiconductors (ITRS) predicts the technical capability the industry needs to continue to meet Moore’s law. For several decades, planar CMOS technology has been the workhorse for integrated circuit (IC) designers. It has been scaled as per Moore’s law, resulting in ever decreasing device sizes and numbers of technology nodes, the present standard being 10 nm. The ITRS predicts that the end of metal-oxide-semiconductor field-effect transistor (MOSFET) scaling will arrive in 2024 with a 7.5 nm process. Getting to 7.5 nm, however, presents some long-term difficult challenges.
Preface
Physical and technological limitations of nano-CMOS devices to the end of the roadmap and beyond
Introduction and overview of nanoelectronics
Introduction to the quantum theory of solids
Emerging research devices for nanocircuits
Emerging memory devices
Modelling and simulation
Nanofabrication
Emerging nanoelectronic architectures
Nanosensors and transducers