top

  Info

  • Utilizzare la checkbox di selezione a fianco di ciascun documento per attivare le funzionalità di stampa, invio email, download nei formati disponibili del (i) record.

  Info

  • Utilizzare questo link per rimuovere la selezione effettuata.
Micro and nano energy harvesting technologies / / Bin Yang, Huicong Liu, Jingquan Liu, Chengkuo Lee
Micro and nano energy harvesting technologies / / Bin Yang, Huicong Liu, Jingquan Liu, Chengkuo Lee
Autore Yang Bin (Associate professor)
Pubbl/distr/stampa Boston : , : Artech House, , [2015]
Descrizione fisica 1 online resource (305 p.)
Disciplina 620.5
Collana Artech House microelectromechanical systems (MEMS) library
Soggetto topico Energy harvesting
Energy conversion
Power resources
Nanotechnology
Soggetto genere / forma Electronic books.
ISBN 1-5231-1740-0
1-60807-815-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Preface; 1 Piezoelectric MEMS Vibration Energy Harvesting; 1.1 Working Principle; 1.2 Mechanical and Electrical Modeling; 1.3 Fabrication of Piezoelectric MEMS Energy Harvesters; 2 Electromagnetic MEMS Vibration Energy Harvesting; 2.1 Basic Principle and Modeling; 2.2 Characterization of Coils and Magnets; 2.3 Review of Existing Electromagnetic Energy Harvesters; 3 Electrostatic MEMS Vibration Energy Harvesting; 3.1 Basic Principles; 3.2 Electret-Free Electrostatic Microharvesters; 4 Triboelectric Energy Harvesting; 4.1 Working Principle; 4.2 Materials and Fabrication.
4.3 Development of Triboelectric Energy Harvesters5 Strategies for High-Performance Vibration Energy Harvesters; 5.1 Hybrid Energy Conversion Strategies; 5.2 Frequency Broadening Strategies; 6 Microelectronic Circuits for Vibration Energy Harvesting; 6.1 Overview of Energy-Harvesting Electronics; 6.2 Case Study of Energy-Harvesting Electronics; 7 MEMS Acoustic Energy Harvesting; 7.1 Working Principle; 7.2 Acoustic Microharvester; 7.3 Application of Acoustic Energy Harvester; 8 MEMS Wind-Flow Energy Harvesting; 8.1 Small-Scale Windmills for Energy Harvesting.
8.2 Wind-Belt Fluttering for Energy Harvesting8.3 Vortex-Induced Vibration for Energy Harvesting; 8.4 Helmholtz Resonance for Energy Harvesting; 8.5 MEMS-Based Air-Flow Energy Harvesting; 9 MEMS Thermal Energy Harvesting; 9.1 Thermoelectric Energy Harvesting; 9.2 Pyroelectric Energy Harvesting; 10 Nano-Based Energy Harvesting; 10.1 Piezoelectric Effect in Nanowires and Nanofibers; 10.2 ZnO Nanowire Harvesters; 10.3 Organic PVDF-Based Nanofiber Harvesters; 10.4 PZT Nanofiber Harvesters; 11 Applications of Energy Harvesters; 11.1 Bio-MEMS Applications.
11.2 Tire Pressure Monitoring in Automobiles11.3 Structural Health Monitoring; About the Authors; Index.
Record Nr. UNINA-9910460382403321
Yang Bin (Associate professor)  
Boston : , : Artech House, , [2015]
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Micro and nano energy harvesting technologies / / Bin Yang, Huicong Liu, Jingquan Liu, Chengkuo Lee
Micro and nano energy harvesting technologies / / Bin Yang, Huicong Liu, Jingquan Liu, Chengkuo Lee
Autore Yang Bin (Associate professor)
Pubbl/distr/stampa Boston : , : Artech House, , [2015]
Descrizione fisica 1 online resource (305 p.)
Disciplina 620.5
Collana Artech House microelectromechanical systems (MEMS) library
Soggetto topico Energy harvesting
Energy conversion
Power resources
Nanotechnology
ISBN 1-5231-1740-0
1-60807-815-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Preface; 1 Piezoelectric MEMS Vibration Energy Harvesting; 1.1 Working Principle; 1.2 Mechanical and Electrical Modeling; 1.3 Fabrication of Piezoelectric MEMS Energy Harvesters; 2 Electromagnetic MEMS Vibration Energy Harvesting; 2.1 Basic Principle and Modeling; 2.2 Characterization of Coils and Magnets; 2.3 Review of Existing Electromagnetic Energy Harvesters; 3 Electrostatic MEMS Vibration Energy Harvesting; 3.1 Basic Principles; 3.2 Electret-Free Electrostatic Microharvesters; 4 Triboelectric Energy Harvesting; 4.1 Working Principle; 4.2 Materials and Fabrication.
4.3 Development of Triboelectric Energy Harvesters5 Strategies for High-Performance Vibration Energy Harvesters; 5.1 Hybrid Energy Conversion Strategies; 5.2 Frequency Broadening Strategies; 6 Microelectronic Circuits for Vibration Energy Harvesting; 6.1 Overview of Energy-Harvesting Electronics; 6.2 Case Study of Energy-Harvesting Electronics; 7 MEMS Acoustic Energy Harvesting; 7.1 Working Principle; 7.2 Acoustic Microharvester; 7.3 Application of Acoustic Energy Harvester; 8 MEMS Wind-Flow Energy Harvesting; 8.1 Small-Scale Windmills for Energy Harvesting.
8.2 Wind-Belt Fluttering for Energy Harvesting8.3 Vortex-Induced Vibration for Energy Harvesting; 8.4 Helmholtz Resonance for Energy Harvesting; 8.5 MEMS-Based Air-Flow Energy Harvesting; 9 MEMS Thermal Energy Harvesting; 9.1 Thermoelectric Energy Harvesting; 9.2 Pyroelectric Energy Harvesting; 10 Nano-Based Energy Harvesting; 10.1 Piezoelectric Effect in Nanowires and Nanofibers; 10.2 ZnO Nanowire Harvesters; 10.3 Organic PVDF-Based Nanofiber Harvesters; 10.4 PZT Nanofiber Harvesters; 11 Applications of Energy Harvesters; 11.1 Bio-MEMS Applications.
11.2 Tire Pressure Monitoring in Automobiles11.3 Structural Health Monitoring; About the Authors; Index.
Record Nr. UNINA-9910797934803321
Yang Bin (Associate professor)  
Boston : , : Artech House, , [2015]
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Micro and nano energy harvesting technologies / / Bin Yang, Huicong Liu, Jingquan Liu, Chengkuo Lee
Micro and nano energy harvesting technologies / / Bin Yang, Huicong Liu, Jingquan Liu, Chengkuo Lee
Autore Yang Bin (Associate professor)
Pubbl/distr/stampa Boston : , : Artech House, , [2015]
Descrizione fisica 1 online resource (305 p.)
Disciplina 620.5
Collana Artech House microelectromechanical systems (MEMS) library
Soggetto topico Energy harvesting
Energy conversion
Power resources
Nanotechnology
ISBN 1-5231-1740-0
1-60807-815-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Preface; 1 Piezoelectric MEMS Vibration Energy Harvesting; 1.1 Working Principle; 1.2 Mechanical and Electrical Modeling; 1.3 Fabrication of Piezoelectric MEMS Energy Harvesters; 2 Electromagnetic MEMS Vibration Energy Harvesting; 2.1 Basic Principle and Modeling; 2.2 Characterization of Coils and Magnets; 2.3 Review of Existing Electromagnetic Energy Harvesters; 3 Electrostatic MEMS Vibration Energy Harvesting; 3.1 Basic Principles; 3.2 Electret-Free Electrostatic Microharvesters; 4 Triboelectric Energy Harvesting; 4.1 Working Principle; 4.2 Materials and Fabrication.
4.3 Development of Triboelectric Energy Harvesters5 Strategies for High-Performance Vibration Energy Harvesters; 5.1 Hybrid Energy Conversion Strategies; 5.2 Frequency Broadening Strategies; 6 Microelectronic Circuits for Vibration Energy Harvesting; 6.1 Overview of Energy-Harvesting Electronics; 6.2 Case Study of Energy-Harvesting Electronics; 7 MEMS Acoustic Energy Harvesting; 7.1 Working Principle; 7.2 Acoustic Microharvester; 7.3 Application of Acoustic Energy Harvester; 8 MEMS Wind-Flow Energy Harvesting; 8.1 Small-Scale Windmills for Energy Harvesting.
8.2 Wind-Belt Fluttering for Energy Harvesting8.3 Vortex-Induced Vibration for Energy Harvesting; 8.4 Helmholtz Resonance for Energy Harvesting; 8.5 MEMS-Based Air-Flow Energy Harvesting; 9 MEMS Thermal Energy Harvesting; 9.1 Thermoelectric Energy Harvesting; 9.2 Pyroelectric Energy Harvesting; 10 Nano-Based Energy Harvesting; 10.1 Piezoelectric Effect in Nanowires and Nanofibers; 10.2 ZnO Nanowire Harvesters; 10.3 Organic PVDF-Based Nanofiber Harvesters; 10.4 PZT Nanofiber Harvesters; 11 Applications of Energy Harvesters; 11.1 Bio-MEMS Applications.
11.2 Tire Pressure Monitoring in Automobiles11.3 Structural Health Monitoring; About the Authors; Index.
Record Nr. UNINA-9910823927303321
Yang Bin (Associate professor)  
Boston : , : Artech House, , [2015]
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui