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200 13$aAn overture for founding & maintaining of bibliothecks in every paroch throughout this kingdom: humbly offered to the consideration of this present assembly$b[electronic resource]
210   $a[Edinburgh] $cPrinted in the year$d1699
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300   $aBy James Kirkwood. - Wing (CD-ROM edition).
300   $aPlace of publication from Wing (CD-ROM edition).
300   $aReproduction of original in the Folger Shakespeare Library.
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181   $ctxt$2rdacontent
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200 10$aPolymer Materials in Sensors, Actuators and Energy Conversion
210   $cMDPI - Multidisciplinary Digital Publishing Institute$d2022
215   $a1 electronic resource (208 p.)
311   $a3-0365-5430-0 
330   $aPolymer-based materials applications in sensors, actuators, and energy conversion play a key role in recently developing areas of smart materials and electronic devices. These areas cover the synthesis, structures, and properties of polymers and composites, including energy-harvesting devices and energy-storage devices for electromechanical (electrical to mechanical energy conversion) and magneto-mechanical (magnetic to mechanical energy conversion), light-emitting devices, and electrically driving sensors. Therefore, the modulation of polymer-based materials and devices for controlling the detection, actuation, and energy with functionalized relative device can be achieved with the present reprint, comprising 12 chapters.This reprint is principally concerned with the topic of materials of materials, especially polymers. The contents not only involve essential information but also possess many novel academic applications in the fields. This Special Issue's title is "Polymer Materials in Sensors, Actuators and Energy Conversion" and covers the research field of polymers .Finally, I am very proud of my dear wife Winnie, son Vincent, and daughter Ruby. I thank them for supporting me in finishing the reprint. The reprint, involving 2 reviews and 10 regular papers, has been accomplished, and I am deeply thankful to all the authors for their assistance in producing a reprint with considerable number of chapters. I also hope that readers can achieve some useful understanding of polymer materials in sensors, actuators, and energy conversion, and that that they will be employed by scientists and researchers.
606   $aResearch & information: general$2bicssc
606   $aPhysics$2bicssc
610   $apolyporphyrin arrays
610   $achelation
610   $afluorescence
610   $ahybrid materials
610   $aCP PFO-co-PPV-MEHB
610   $asub-nanosecond TRS
610   $aamplified spontaneous emission (ASE) spectra
610   $agreen emitter
610   $apolymeric nanofluid
610   $atwo-step synthesis
610   $aelectrochemistry
610   $aredox reaction
610   $athermal performance
610   $athermoelectric pipe
610   $agold nanoparticle
610   $atitanium dioxide nanorod
610   $apoly(vinylidene fluoride)
610   $aheat treatment
610   $ahybrid nanoparticle
610   $amodified Turkevich method
610   $asolar cell
610   $aphotovoltaic response
610   $aperovskite
610   $alead-free
610   $adopant-free
610   $aCs2TiBr6
610   $aNPB
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610   $anatural rubber
610   $atriboelectric nanogenerator
610   $aTiO2 nanoparticles
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610   $apolymerization potentials
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610   $acyclic voltammetry
610   $aion flux
610   $aPMMA
610   $aacrylic
610   $aactuation jets
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610   $apiezoelectric ceramic
610   $athermal analysis
610   $aelectrochemical sensor
610   $abiosensor
610   $aimpedimetric
610   $avoltammetric
610   $apolypyrrole
610   $aconducting polymer
610   $aintermediate temperature solid oxide fuel cell
610   $ainterface charge transfer impedance
610   $adiffusion impedance
610   $acore-shell structure
610   $atriple-phase boundaries
610   $aelectrode electrocatalytic activity
610   $afiber tilt sensor
610   $aNOA61
610   $aNOA65
610   $apolymer
610   $asimultaneous measurement
610   $afiber Fizeau interferometer
610   $ataper
610   $agum arabic
610   $asupercapacitors
610   $aEIS
610   $aGCD
615  7$aResearch & information: general
615  7$aPhysics
700   $aWang$b Jung-Chang$4edt$01293871
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