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000780029 019__ $$a975029391$$a975086868$$a975385124$$a984876804
000780029 020__ $$a9783319504247$$q(electronic book)
000780029 020__ $$a331950424X$$q(electronic book)
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000780029 0247_ $$a10.1007/978-3-319-50424-7$$2doi
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000780029 049__ $$aISEA
000780029 050_4 $$aTA455.P585
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000780029 08204 $$a620.1/92$$223
000780029 24500 $$aSmart polymer nanocomposites :$$benergy harvesting, self-healing and shape memory applications /$$cDeepalekshmi Ponnamma, Kishor Kumar Sadasivuni, John-John Cabibihan, Mariam Al-Ali Al Maadeed, editors.
000780029 264_1 $$aCham, Switzerland :$$bSpringer,$$c2017.
000780029 300__ $$a1 online resource (xi, 397 pages) :$$billustrations.
000780029 336__ $$atext$$btxt$$2rdacontent
000780029 337__ $$acomputer$$bc$$2rdamedia
000780029 338__ $$aonline resource$$bcr$$2rdacarrier
000780029 347__ $$atext file$$bPDF$$2rda
000780029 4901_ $$aSpringer series on polymer and composite materials
000780029 504__ $$aIncludes bibliographical references.
000780029 5050_ $$aContributors; 1 Energy Harvesting: Breakthrough Technologies Through Polymer Composites; Abstract; 1 Introduction; 1.1 Energy Harvesting for Alternatives to Fossil Fuel; 1.2 Energy Harvesting for Powering Sensors and Electronics; 2 Photovoltaic Technologies; 2.1 Role of Nanostructured Materials and Conducting Polymers in Various PV Technologies; 2.1.1 Organic Polymer Solar Cells; Device Physics and Active Layers Involved in Energy Conversion; Device Physics and Active Layers Involved in Energy Conversion
000780029 5058_ $$aBJH OPV Cells: Focus on (Poly(3-hexylthiophene) (P3HT)) and MDMO-PPV (Poly[2-methoxy-5-(3,7-dimethyloctyloxy)-1,4-phenylene]-alt-(vinylene)) Polymer Composites in OPVs2.2 The Bigger Picture: Maximizing Cell and Module Efficiency Through Inorganic-Organic Hybrid Structures; 2.2.1 Charge Separation at the Organic-Inorganic Interface; 2.2.2 Nanostructured Architecture of Hybrid Cells; 2.2.3 Key Components and Optimization for Enhanced Device Performance; 3 Thermoelectric Power Generation; 3.1 The Physics of a Working Thermoelectric Energy Harvester
000780029 5058_ $$a3.2 Historical Implementation of Inorganic Materials: Evolution, Challenges Faced, and Limitations3.3 Applications of Various Conductive Polymers for Organic Active Layers; 3.3.1 Ease of Manufacturability; 3.3.2 Tunability: Effect of Doping Level on the Thermoelectric Properties of Conductive Polymers; Copolymers and Polymer Blends: Further Methods to Tune Properties; Ability to Utilize Additives and Their Respective Advantages; 4 Mechanical Vibration-Based Energy Harvesting; 4.1 Electromagnetic Energy Harvesters; 4.1.1 Operating Principle and Challenges in Miniaturization of Device
000780029 5058_ $$a4.1.2 Fabrication Using Polymer NanocompositesFabrication Methodologies; Geometry of Harvesters; Working Principles Behind Energy Capture; 4.1.3 Challenges and Work Underway; 4.2 Piezoelectric Energy Harvesters; 4.2.1 Operating Principal Utilizing Two Categories of Piezogenerators; Single-Phase Piezoceramics; Piezocomposites; Piezopolymers; Voided Charge Polymers; 4.2.2 Comparison and Advantage of Piezoelectric Polymers Over Inorganic Piezoelectric Materials; 4.2.3 Conclusions, Challenges, and Future Outlook; References; 2 Energy Harvesting from Crystalline and Conductive Polymer Composites
000780029 5058_ $$aAbstract1 Introduction; 2 Electroactive Polymers (EAPs); 3 Energy Harvesting from Ferroelectric Polymers; 3.1 Electromechanical Properties of PVDF; 3.2 Energy Harvesting Using PVDF; 3.2.1 Kinetic Energy Harvesters Using PVDF; 3.2.2 Kinematic Energy Harvesters Using PVDF; 3.2.3 Micro- and Nanogenerators Based on PVDF Composites; 3.3 Energy Harvesting Using Cellulose Nanocrystals; 4 Energy Harvesting from Electrostrictive Polymers; 4.1 Effect of Intrinsic Mechanisms; 4.2 Tackling Quadratic Dependence of Strain on Electric Field; 4.3 Energy Harvesting Using Polyurethane Transducers
000780029 506__ $$aAccess limited to authorized users.
000780029 520__ $$aThis book covers smart polymer nanocomposites with perspectives for application in energy harvesting, as self-healing materials, or shape memory materials. The book is application-oriented and describes different types of polymer nanocomposites, such as elastomeric composites, thermoplastic composites, or conductive polymer composites. It outlines their potential for applications, which would meet some of the most important challenges nowadays: for harvesting energy, as materials with the capacity to self-heal, or as materials memorizing a given shape. The book brings together these different applications for the first time in one single platform. Chapters are ordered both by the type of composites and by the target applications. Readers will thus find a good overview, facilitating a comparison of the different smart materials and their applications. The book will appeal to scientists in the fields of chemistry, material science and engineering, but also to technologists and physicists, from graduate student level to researcher and professional. .
000780029 588__ $$aOnline resource; title from PDF title page (SpringerLink, viewed March 15, 2017).
000780029 650_0 $$aShape memory polymers.
000780029 650_0 $$aNanocomposites (Materials)
000780029 7001_ $$aPonnamma, Deepalekshmi,$$eeditor.
000780029 7001_ $$aSadasivuni, Kishor Kumar,$$d1986-$$eeditor.
000780029 7001_ $$aCabibihan, J.-J.$$q(John-John),$$eeditor.
000780029 7001_ $$aAl-Maadeed, Mariam Al-Ali,$$eeditor.
000780029 77608 $$iPrint version:$$z3319504231$$z9783319504230$$w(OCoLC)962127385
000780029 830_0 $$aSpringer series on polymer and composite materials.
000780029 852__ $$bebk
000780029 85640 $$3SpringerLink$$uhttps://univsouthin.idm.oclc.org/login?url=http://link.springer.com/10.1007/978-3-319-50424-7$$zOnline Access$$91397441.1
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000780029 980__ $$aBIB
000780029 982__ $$aEbook
000780029 983__ $$aOnline
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