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Luryi Serge, Xu Jimmy, Zaslavsky Alexander (eds.) Future Trends in Microelectronics: Journey into the Unknown
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Wiley, 2016. — 384 р. — ISBN: 978-1-119-06911-9.The book presents the future developments and innovations in the developing field of microelectronics. The book’s chapters contain contributions from various authors, all of whom are leading industry professionals affiliated either with top universities, major semiconductor companies, or government laboratories, discussing the evolution of their profession. A wide range of microelectronic-related fields are examined, including solid-state electronics, material science, optoelectronics, bioelectronics, and renewable energies. The topics covered range from fundamental physical principles, materials and device technologies, and major new market opportunities.Describes the expansion of the field into hot topics such as energy (photovoltaics) and medicine (bio-nanotechnology);
Provides contributions from leading industry professionals in semiconductor micro- and nano-electronics;
Discusses the importance of micro- and nano-electronics in today’s rapidly changing and expanding information society;
Future Trends in Microelectronics: Journey into the Unknown is written for industry professionals and graduate students in engineering, physics, and nanotechnology.List of Contributors.Acknowledgments.Future of Digital Silicon.
Prospects of Future Si Technologies in the Data-Driven World.
How Lithography Enables Moore’s Law.
What Happened to Post-CMOS?
Three-Dimensional Integration of Ge and Two-Dimensional Materials for One-Dimensional Devices.
Challenges to Ultralow-Power Semiconductor Device Operation.
A Universal Nonvolatile Processing Environment.
Can MRAM (Finally) Be a Factor?
Nanomanufacturing for Electronics or Optoelectronics.New Materials and New Physics.
Surface Waves Everywhere.
Graphene and Atom-Thick 2D Materials: Device Application Prospects.
Computing with Coupled Relaxation Oscillators.
On the Field-Induced Insulator-Metal Transition in V02 Films.
Group IV Alloys for Advanced Nano- and Optoelectronic Applications.
High Sn-Content GeSn Light Emitters for Silicon Photonics.
Gallium Nitride-Based Lateral and Vertical Nanowire Devices.
Scribing Graphene Circuits.
Structure and Electron Transport in Irradiated Monolayer Graphene.
Interplay of Coulomb Blockade and Luttinger-Liquid Physics in Disordered ID InAs Nanowires with Strong Spin-Orbit Coupling.Microelectronics in Health, Energy Harvesting, and Comminications.
Image-Guided Intervention and Therapy: The First Time Right.
Rewiring the Nervous System, Without Wires.
Nanopower-Integrated Electronics for Energy Harvesting, Conversion, and Management.
Will Composite Nanomaterials Replace Piezoelectric Thin Films for Energy Transduction Applications?
New Generation of Vertical-Cavity Surface-Emitting Lasers for Optical Interconnects.
Reconfigurable Infrared Photodetector Based on Asymmetrically Doped Double Quantum Wells for Multicolor and Remote Temperature Sensing.
Tunable Photonic Molecules for Spectral Engineering in Dense Photonic Integration.
Provides contributions from leading industry professionals in semiconductor micro- and nano-electronics;
Discusses the importance of micro- and nano-electronics in today’s rapidly changing and expanding information society;
Future Trends in Microelectronics: Journey into the Unknown is written for industry professionals and graduate students in engineering, physics, and nanotechnology.List of Contributors.Acknowledgments.Future of Digital Silicon.
Prospects of Future Si Technologies in the Data-Driven World.
How Lithography Enables Moore’s Law.
What Happened to Post-CMOS?
Three-Dimensional Integration of Ge and Two-Dimensional Materials for One-Dimensional Devices.
Challenges to Ultralow-Power Semiconductor Device Operation.
A Universal Nonvolatile Processing Environment.
Can MRAM (Finally) Be a Factor?
Nanomanufacturing for Electronics or Optoelectronics.New Materials and New Physics.
Surface Waves Everywhere.
Graphene and Atom-Thick 2D Materials: Device Application Prospects.
Computing with Coupled Relaxation Oscillators.
On the Field-Induced Insulator-Metal Transition in V02 Films.
Group IV Alloys for Advanced Nano- and Optoelectronic Applications.
High Sn-Content GeSn Light Emitters for Silicon Photonics.
Gallium Nitride-Based Lateral and Vertical Nanowire Devices.
Scribing Graphene Circuits.
Structure and Electron Transport in Irradiated Monolayer Graphene.
Interplay of Coulomb Blockade and Luttinger-Liquid Physics in Disordered ID InAs Nanowires with Strong Spin-Orbit Coupling.Microelectronics in Health, Energy Harvesting, and Comminications.
Image-Guided Intervention and Therapy: The First Time Right.
Rewiring the Nervous System, Without Wires.
Nanopower-Integrated Electronics for Energy Harvesting, Conversion, and Management.
Will Composite Nanomaterials Replace Piezoelectric Thin Films for Energy Transduction Applications?
New Generation of Vertical-Cavity Surface-Emitting Lasers for Optical Interconnects.
Reconfigurable Infrared Photodetector Based on Asymmetrically Doped Double Quantum Wells for Multicolor and Remote Temperature Sensing.
Tunable Photonic Molecules for Spectral Engineering in Dense Photonic Integration.
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