Nano devices and circuit techniques for low-energy applications and energy harvesting
Contents: PART 1 Devices for Low Energy -- 1 Tunneling Field Effect Transistors for Ultralow Power Application; Byung-Gook Park -- 2 Bulk FInFETs: Design at 14 mm Node and Key Characteristics; Jong-Ho Lee -- 3 Micro and Nano Electromechanical Contact Switches for Logic, Memeory and Power Application...
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my.uniten.dspace-139252020-06-03T06:17:32Z Nano devices and circuit techniques for low-energy applications and energy harvesting Chong-Min Kyung, editor. Energy harvesting; Nanotechnology; TECHNOLOGY & ENGINEERING -- Mechanical; Energy harvesting; Nanotechnology; Engineering; Circuits and Systems; Electronic Circuits and Devices; Nanotechnology; Energy Harvesting; Nanoscale Science and Technology; Electronic books; Contents: PART 1 Devices for Low Energy -- 1 Tunneling Field Effect Transistors for Ultralow Power Application; Byung-Gook Park -- 2 Bulk FInFETs: Design at 14 mm Node and Key Characteristics; Jong-Ho Lee -- 3 Micro and Nano Electromechanical Contact Switches for Logic, Memeory and Power Applications; Yong-Ha Song, Jun-Bo Yoon -- 4 Ultra-low Power Processor Design with 3D IC Operating at Sub/Near-threshold Voltages; Sandeep Samal, Sung Kyu Lim -- PART 2 Systems and Circuits for Low Energy, Materials for Low Energy -- 5 Reconfigurable Photovoltaic Array Systems for Adaptive and Fault-Tolerant Energy Harvesting; Naehyuck Chang, Massoud Pedram, Hyung Gyu Lee, Yanzhi Wang, Younghyun Kim -- 6 Energy Harversting from the Human Body and Powering up Implant Devices; Ross Kerley, Xiucheng Huang, Dong Sam Ha -- 7 Low-Power Circuit Techniques for Efficient Energy Harvesting; Jaeha Kim, Myeong-Jae Park, Joonseok Yang, Wootaek Lim -- 8 Preparation of Porous Graphene based nanomaterials for electrochemical energy storage devices; Yuanzhe Piao -- 9 Graphene and 2-Dimensional Transition Metal Dichalcogenide Materials for Energy-related Applications; Gyeong Sook Bang, Sung-Yool Choi. This book describes the development of core technologies to address two of the most challenging issues in research for future IT platform development, namely innovative device design and reduction of energy consumption. Three key devices, the FinFET, the TunnelFET, and the electromechanical nanoswitch are described with extensive details of use for practical applications. Energy issues are also covered in a tutorial fashion from material physics, through device technology, to innovative circuit design. The strength of this book lies in its holistic approach dealing with material trends, state-of-the-art of key devices, new examples of circuits and systems applications. This is the first of three books based on the Integrated Smart Sensors research project, which describe the development of innovative devices, circuits, and system-level enabling technologies. The aim of the project was to develop common platforms on which various devices and sensors can be loaded, and to create systems offering significant improvements in information processing speed, energy usage, and size. The book contains extensive reference lists and with over 200 figures introduces the reader to the general subject in a tutorial style, also addressing the state-of-the-art, allowing it to be used as a guide for starting researchers in these fields. 2020-06-03T06:17:32Z 2020-06-03T06:17:32Z 2016 Book http://dspace.uniten.edu.my/jspui/handle/123456789/13925 en Springer |
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| language |
English |
| topic |
Energy harvesting; Nanotechnology; TECHNOLOGY & ENGINEERING -- Mechanical; Energy harvesting; Nanotechnology; Engineering; Circuits and Systems; Electronic Circuits and Devices; Nanotechnology; Energy Harvesting; Nanoscale Science and Technology; Electronic books; |
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Energy harvesting; Nanotechnology; TECHNOLOGY & ENGINEERING -- Mechanical; Energy harvesting; Nanotechnology; Engineering; Circuits and Systems; Electronic Circuits and Devices; Nanotechnology; Energy Harvesting; Nanoscale Science and Technology; Electronic books; Chong-Min Kyung, editor. Nano devices and circuit techniques for low-energy applications and energy harvesting |
| description |
Contents: PART 1 Devices for Low Energy -- 1 Tunneling Field Effect Transistors for Ultralow Power Application; Byung-Gook Park -- 2 Bulk FInFETs: Design at 14 mm Node and Key Characteristics; Jong-Ho Lee -- 3 Micro and Nano Electromechanical Contact Switches for Logic, Memeory and Power Applications; Yong-Ha Song, Jun-Bo Yoon -- 4 Ultra-low Power Processor Design with 3D IC Operating at Sub/Near-threshold Voltages; Sandeep Samal, Sung Kyu Lim -- PART 2 Systems and Circuits for Low Energy, Materials for Low Energy -- 5 Reconfigurable Photovoltaic Array Systems for Adaptive and Fault-Tolerant Energy Harvesting; Naehyuck Chang, Massoud Pedram, Hyung Gyu Lee, Yanzhi Wang, Younghyun Kim -- 6 Energy Harversting from the Human Body and Powering up Implant Devices; Ross Kerley, Xiucheng Huang, Dong Sam Ha -- 7 Low-Power Circuit Techniques for Efficient Energy Harvesting; Jaeha Kim, Myeong-Jae Park, Joonseok Yang, Wootaek Lim -- 8 Preparation of Porous Graphene based nanomaterials for electrochemical energy storage devices; Yuanzhe Piao -- 9 Graphene and 2-Dimensional Transition Metal Dichalcogenide Materials for Energy-related Applications; Gyeong Sook Bang, Sung-Yool Choi. |
| format |
Book |
| author |
Chong-Min Kyung, editor. |
| author_facet |
Chong-Min Kyung, editor. |
| author_sort |
Chong-Min Kyung, editor. |
| title |
Nano devices and circuit techniques for low-energy applications and energy harvesting |
| title_short |
Nano devices and circuit techniques for low-energy applications and energy harvesting |
| title_full |
Nano devices and circuit techniques for low-energy applications and energy harvesting |
| title_fullStr |
Nano devices and circuit techniques for low-energy applications and energy harvesting |
| title_full_unstemmed |
Nano devices and circuit techniques for low-energy applications and energy harvesting |
| title_sort |
nano devices and circuit techniques for low-energy applications and energy harvesting |
| publisher |
Springer |
| publishDate |
2020 |
| url |
http://dspace.uniten.edu.my/jspui/handle/123456789/13925 |
| _version_ |
1669010063914696704 |
| score |
13.209306 |