索书号 TN4/B885

Micro- and Nanoelectronics: Emerging Device Challenges and Solutions presents a comprehensive overview of the current state of the art of micro- and nanoelectronics, covering the field from fundamental science and material properties to novel ways of making nano devices. Containing contributions from experts in both industry and academia, this cutting-edge text:

Discusses emerging silicon devices for CMOS technologies, fully depleted device architectures, characteristics, and scaling

Explains the specifics ofsilicon compound devices (SiGe, SiC) and their unique properties Explores various options for post-CMOS nanoelectronics, such as spintronic devices andnanoionic switches

Describes the latest developments in carbon nanotubes, iii-vdevices structures, and more

Micro- and Nanoelectronics: Emerging Device Challenges and Solutions provides an excellent representation of a complexengineering field, examining emerging materials and device architecturealternatives with the potential to shape the future of nanotechnology.

Section I Silicon Compound Devices

Chapter 1 SiGe BiCMOS Technology andDevices

Chapter 2 Si-Ge Interdiffusion, DopantDiffusion, and Segregation in SiGe- and SiGe:C-Based Devices

Chapter 3 SiC MOS Devices: NitrogenPassivation of Near-Interface Defects

Section II Advanced CMOS Devices

Chapter 4 Fully Depleted Devices: FDSOI andFinFET

Chapter 5 Fully Depleted SOI TechnologyOverview

Chapter 6 FinFETs: Designing for New LogicTechnology

Chapter 7 Reliability Issues in Planar andNonplanor (FinFET) Device Architectures

Chapter 8 High-Mobility Channets

Chapter 9 2-D InAs XOI FETs: Fabricationand Device Physics

Section III Post-CMOS Device Concepts

Chapter 10 Beyond-CMOS Devices

Chapter 11 Stateful STT-MRAM-Based Logicfor Beyond-Von Neumann Computing

Chapter 12 Four-State HybridSpintronics-Straintronics for Ultra-Low Power Computing

Chapter 13 Nanoionic Switches as Post-CMOSDevices for Neuromorphic Electronics

Section III Elements of Carbon Electronics

Chapter 14 Physics-Based Compact GrapheneDevice Modeling

Chapter 15 Carbon Nanotube VerticalInterconnects: Prospects and Challenges

Chapter 16 Graphene Nanosheet as ultrathinBarrier