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Jong-Hyun Ahn, John A. Rogers (Beteiligte)

Silicon Nanomembranes


Fundamental Science and Applications
Herausgegeben von Rogers, John A.; Ahn, Jong-Hyun
1. Auflage. 2016. XVIII S. 21 SW-Abb., 147 Farbabb., 5 Tabellen. 244 mm
Verlag/Jahr: WILEY-VCH 2016
ISBN: 3-527-33831-4 (3527338314)
Neue ISBN: 978-3-527-33831-3 (9783527338313)

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PART I. MATERIALS AND PROCESSES
Synthesis, Assembly and Applications of Semiconductor Nanomembranes
Mechanics of Si Nanomebranes
Charge/Phonon Transport and Thermoelectricity of Si Nanomembranes
Strain Effect on Band Structure of Si Nanomembranes
PART II. DEVICE APPLICATIONS
Transparent and Foldable Electronics Enabled by Si Nanomembranes
Extremely Flexible Nanoscale Ultrathin Body Silicon Integrated Circuits on Plastic
High Speed, Flexible Electronics by Use of Si Nanomembranes
Si Nanomembranes for Bio-Integrated Electronics
Flexible Si Nanomebrane Sensor for Human Interface
Flexible and Transparent Solar Cells Using Si Nanomembranes
Silicon Nanomembranes for Efficient and Precise Molecular Separations
3D Integrated Optics of Si Nanomebranes
Si Nanomebrane-based Photonic Devices
Si Nanomembrane-based Biosensors for Protein Detection
Edited by the leaders in the fi eld, with chapters from highly renowned international researchers, this is the fi rst coherent overview of the latest in silicon nanomembrane research.
As such, it focuses on the fundamental and applied aspects of silicon nanomembranes, ranging from synthesis and manipulation to manufacturing, device integration and system level applications, including uses in bio-integrated electronics, three-dimensional integrated photonics, solar cells, and transient electronics.
The first part describes in detail the fundamental physics and materials science involved, as well as synthetic approaches and assembly and manufacturing strategies, while the second covers the wide range of device applications and system level demonstrators already achieved, with examples taken from electronics and photonics and from biomedicine and energy.
PART I. MATERIALS AND PROCESSES
Synthesis, Assembly and Applications of Semiconductor Nanomembranes
Mechanics of Si Nanomebranes
Charge/Phonon Transport and Thermoelectricity of Si Nanomembranes
Strain Effect on Band Structure of Si Nanomembranes
PART II. DEVICE APPLICATIONS
Transparent and Foldable Electronics Enabled by Si Nanomembranes
Extremely Flexible Nanoscale Ultrathin Body Silicon Integrated Circuits on Plastic
High Speed, Flexible Electronics by Use of Si Nanomembranes
Si Nanomembranes for Bio-Integrated Electronics
Flexible Si Nanomebrane Sensor for Human InterfaceFlexible and Transparent Solar Cells Using Si Nanomembranes
Silicon Nanomembranes for Efficient and Precise Molecular Separations
3D Integrated Optics of Si Nanomebranes
Si Nanomebrane-based Photonic Devices
Si Nanomembrane-based Biosensors for Protein Detection
John A. Rogers holds a Swanlund Chair at the University of Illinois at Urbana-Champaign, USA. His research includes fundamental and applied aspects of nano- and molecular-scale fabrication as well as materials and patterning techniques for unusual electronic and photonic devices, with an emphasis on bio-integrated and bio-inspired systems. He has published more than 500 papers, and is an inventor of over 80 patents and patent applications, more than 50 of which are licensed or in active use by large companies and startups that he has co-founded. Jong-Hyun Ahn is Underwood distinguished professor in the School of Electrical and Electronic Engineering at Yonsei University, Korea. His research interest focuses on the synthesis and properties of graphene, two-dimensional materials, and Si nanomembranes, and their application in fl exible electronics. Jong-Hyun Ahn has authored more than 130 scientifi c publications and is an inventor of more than 60 patents and has received numerous scientifi c awards, including the National Young Scientist Award and the IEEE George Smith Award.