Smart Materials and Devices for Energy Harvesting
Smart Materials and Devices for Energy Harvesting
English[eng]
9783040000000
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
English[eng]
9783040000000
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