Smart Materials and Devices for Energy Harvesting

This book is devoted to energy harvesting from smart materials and devices. It focusses on the latest available techniques recently published by researchers all over the world. Energy Harvesting allows otherwise wasted environmental energy to be converted into electric energy, such as vibrations, wi...

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Izdano: MDPI - Multidisciplinary Digital Publishing Institute 2022
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collection Directory of Open Access Books
description This book is devoted to energy harvesting from smart materials and devices. It focusses on the latest available techniques recently published by researchers all over the world. Energy Harvesting allows otherwise wasted environmental energy to be converted into electric energy, such as vibrations, wind and solar energy. It is a common experience that the limiting factor for wearable electronics, such as smartphones or wearable bands, or for wireless sensors in harsh environments, is the finite energy stored in onboard batteries. Therefore, the answer to the battery “charge or change” issue is energy harvesting because it converts the energy in the precise location where it is needed. In order to achieve this, suitable smart materials are needed, such as piezoelectrics or magnetostrictives. Moreover, energy harvesting may also be exploited for other crucial applications, such as for the powering of implantable medical/sensing devices for humans and animals. Therefore, energy harvesting from smart materials will become increasingly important in the future. This book provides a broad perspective on this topic for researchers and readers with both physics and engineering backgrounds.
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language eng
publishDate 2022
publishDateRange 2022
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publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
record_format ojs
spelling doab-20.500.12854ir-796362024-04-11T15:10:46Z Smart Materials and Devices for Energy Harvesting Davino, Daniele magnetostrictive energy harvesting wearable magnetostrictive materials Galfenol finite element model iron–gallium measurements preisach model piezoelectric ceramics lead-free piezoceramics virtual instrument 3D electrospinning PVDF fibers piezoelectricity piezoelectric sensing wind energy harvesting snap-through motion dynamic stability variable-speed double-clamped width shapes piezoelectric energy harvester electrodes pair MEMS structure finite element method open circuit voltage moving load layered double hydroxide solar cell (LDHSC) photoactive material UV-Vis absorption dye sensitized solar cell (DSSC) photoactive layered double hydroxide (LDH) transition metal modification optical bandgap analysis renewable energy photovoltaic device design iron (Fe) modified MgFeAl LDH triboelectric effect polymer and composites low-power devices thermomagnetic energy generators power generation waste heat recovery lumped-element modelling magnetic shape memory films Ni-Mn-Ga film magnetization change Curie temperature finite element simulation piezoelectric unit distributions electrical potential and energy von Mises stress PVDF piezoelectric material human body movements glass fiber-reinforced polymer composite multifunctional structural laminate thermal energy harvesting through-thickness thermal gradient thermoelectric generator (TEG) n/a thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology This book is devoted to energy harvesting from smart materials and devices. It focusses on the latest available techniques recently published by researchers all over the world. Energy Harvesting allows otherwise wasted environmental energy to be converted into electric energy, such as vibrations, wind and solar energy. It is a common experience that the limiting factor for wearable electronics, such as smartphones or wearable bands, or for wireless sensors in harsh environments, is the finite energy stored in onboard batteries. Therefore, the answer to the battery “charge or change” issue is energy harvesting because it converts the energy in the precise location where it is needed. In order to achieve this, suitable smart materials are needed, such as piezoelectrics or magnetostrictives. Moreover, energy harvesting may also be exploited for other crucial applications, such as for the powering of implantable medical/sensing devices for humans and animals. Therefore, energy harvesting from smart materials will become increasingly important in the future. This book provides a broad perspective on this topic for researchers and readers with both physics and engineering backgrounds. 2022-03-21T16:28:56Z 2022-03-21T16:28:56Z 2022 book ONIX_20220321_9783036531229_72 9783036531229 9783036531236 https://directory.doabooks.org/handle/20.500.12854/79636 eng image/jpeg Attribution 4.0 International https://mdpi.com/books/pdfview/book/5021 https://mdpi.com/books/pdfview/book/5021 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-0365-3123-6 10.3390/books978-3-0365-3123-6 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783036531229 9783036531236 218 Basel open access
spellingShingle magnetostrictive
energy harvesting
wearable
magnetostrictive materials
Galfenol
finite element model
iron–gallium
measurements
preisach model
piezoelectric ceramics
lead-free piezoceramics
virtual instrument
3D electrospinning
PVDF fibers
piezoelectricity
piezoelectric sensing
wind energy harvesting
snap-through motion
dynamic stability
variable-speed
double-clamped
width shapes
piezoelectric energy harvester
electrodes pair
MEMS structure
finite element method
open circuit voltage
moving load
layered double hydroxide solar cell (LDHSC)
photoactive material
UV-Vis absorption
dye sensitized solar cell (DSSC)
photoactive layered double hydroxide (LDH)
transition metal modification
optical bandgap analysis
renewable energy
photovoltaic device design
iron (Fe) modified MgFeAl LDH
triboelectric effect
polymer and composites
low-power devices
thermomagnetic energy generators
power generation
waste heat recovery
lumped-element modelling
magnetic shape memory films
Ni-Mn-Ga film
magnetization change
Curie temperature
finite element simulation
piezoelectric unit distributions
electrical potential and energy
von Mises stress
PVDF
piezoelectric material
human body movements
glass fiber-reinforced polymer composite
multifunctional structural laminate
thermal energy harvesting
through-thickness thermal gradient
thermoelectric generator (TEG)
n/a
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
Smart Materials and Devices for Energy Harvesting
title Smart Materials and Devices for Energy Harvesting
title_full Smart Materials and Devices for Energy Harvesting
title_fullStr Smart Materials and Devices for Energy Harvesting
title_full_unstemmed Smart Materials and Devices for Energy Harvesting
title_short Smart Materials and Devices for Energy Harvesting
title_sort smart materials and devices for energy harvesting
topic magnetostrictive
energy harvesting
wearable
magnetostrictive materials
Galfenol
finite element model
iron–gallium
measurements
preisach model
piezoelectric ceramics
lead-free piezoceramics
virtual instrument
3D electrospinning
PVDF fibers
piezoelectricity
piezoelectric sensing
wind energy harvesting
snap-through motion
dynamic stability
variable-speed
double-clamped
width shapes
piezoelectric energy harvester
electrodes pair
MEMS structure
finite element method
open circuit voltage
moving load
layered double hydroxide solar cell (LDHSC)
photoactive material
UV-Vis absorption
dye sensitized solar cell (DSSC)
photoactive layered double hydroxide (LDH)
transition metal modification
optical bandgap analysis
renewable energy
photovoltaic device design
iron (Fe) modified MgFeAl LDH
triboelectric effect
polymer and composites
low-power devices
thermomagnetic energy generators
power generation
waste heat recovery
lumped-element modelling
magnetic shape memory films
Ni-Mn-Ga film
magnetization change
Curie temperature
finite element simulation
piezoelectric unit distributions
electrical potential and energy
von Mises stress
PVDF
piezoelectric material
human body movements
glass fiber-reinforced polymer composite
multifunctional structural laminate
thermal energy harvesting
through-thickness thermal gradient
thermoelectric generator (TEG)
n/a
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
topic_facet magnetostrictive
energy harvesting
wearable
magnetostrictive materials
Galfenol
finite element model
iron–gallium
measurements
preisach model
piezoelectric ceramics
lead-free piezoceramics
virtual instrument
3D electrospinning
PVDF fibers
piezoelectricity
piezoelectric sensing
wind energy harvesting
snap-through motion
dynamic stability
variable-speed
double-clamped
width shapes
piezoelectric energy harvester
electrodes pair
MEMS structure
finite element method
open circuit voltage
moving load
layered double hydroxide solar cell (LDHSC)
photoactive material
UV-Vis absorption
dye sensitized solar cell (DSSC)
photoactive layered double hydroxide (LDH)
transition metal modification
optical bandgap analysis
renewable energy
photovoltaic device design
iron (Fe) modified MgFeAl LDH
triboelectric effect
polymer and composites
low-power devices
thermomagnetic energy generators
power generation
waste heat recovery
lumped-element modelling
magnetic shape memory films
Ni-Mn-Ga film
magnetization change
Curie temperature
finite element simulation
piezoelectric unit distributions
electrical potential and energy
von Mises stress
PVDF
piezoelectric material
human body movements
glass fiber-reinforced polymer composite
multifunctional structural laminate
thermal energy harvesting
through-thickness thermal gradient
thermoelectric generator (TEG)
n/a
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
url ONIX_20220321_9783036531229_72