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Functional materials : prep...
Functional materials have assumed a very prominent position in several high-tech areas. Such materials are not being classified on the basis of their origin, nature of bonding or processing techniques but are classified on the basis of the functions they can perform. This is a significant departure from the earlier schemes in which materials were described as metals, alloys, ceramics, polymers, glass materials etc. Several new processing techniques have also evolved in the recent past. Because of the diversity of materials and their functions it has become extremely difficult to obtain info
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monografia Rebiun31519010 https://catalogo.rebiun.org/rebiun/record/Rebiun31519010 m o d cr cnu---unuuu 111222s2012 enka ob 000 0 eng d 2011944142 962189593 972046237 974663524 974758063 992011517 1037745816 1038690121 1153543869 1229170094 1259182293 9780123851437 electronic bk.) 0123851432 electronic bk.) 9780123851420 0123851424 1283374889 9781283374880 9786613374882 6613374881 9786613374882 AU@ 000049789656 DEBBG BV042316754 DEBSZ 372890466 DEBSZ 481267875 NZ1 14691091 NZ1 15194781 NZ1 15622124 NZ1 15905389 HKP eng pn HKP OPELS E7B CDX COO TEF N$T KNOVL OCLCQ ZCU DEBSZ OCLCQ YDXCP OCLCO KNOVL OCLCO UKDOC KNOVL OCLCQ OCLCF OCLCQ LOA ICA LVT COCUF K6U PIFAG FVL UAB OCLCQ U3W STF WRM VTS CEF INT OCLCQ WYU OCLCQ AUD LEAUB S9I HS0 UKCRE OCLCO QGK TEC 021000 bisacsh 620.1/1 23 Functional materials preparation, processing and applications [edited by] S. Banerjee, A.K. Tyagi London Elsevier 2012 London London Elsevier 1 online resource 1 online resource Text txt rdacontent computer c rdamedia online resource cr rdacarrier Elsevier insights Includes bibliographical references Front Cover; Functional Materials; Copyright Page; Contents; Preface; About the Editors; Contributors; 1 Soft Materials -- Properties and Applications; 1.1 Introduction to Soft Matter; 1.1.1 Introduction; 1.1.2 Soft Matter: A Viscoelastic Fluid; 1.1.3 Shear Modulus and the Energy Density; 1.2 Intermolecular Interactions in Soft Materials; 1.2.1 Charge-Charge Interaction; 1.2.2 Ion-Dipole Interactions; 1.2.3 Dipole-Dipole Interactions; 1.2.4 Ion-Induced Dipole Interactions; 1.2.5 Dipole-Induced Dipole Interaction; 1.2.6 Induced Dipole-Induced Dipole Interactions; 1.2.7 Hydrogen Bonds 1.2.8 Hydrophobic Interactions1.2.9 Depletion Interactions; 1.3 Colloids; 1.3.1 Interactions Between Colloidal Particles; van der Waals Interaction; Electrostatic Forces Between Surfaces; 1.3.2 DLVO Theory of Colloid Stability; 1.4 Surfactant Assemblies; 1.4.1 Surface Tension and Surface Activity; 1.4.2 Surfactant Aggregation and Hydrophobic Effect; 1.4.3 Thermodynamics of Micelle Formation; 1.4.4 Dynamics of Micelle Formation; 1.4.5 Phase Behaviour of Surfactants; 1.4.6 Packing Parameter and Bending Rigidity; 1.5 Polymer Solutions; 1.5.1 Introduction; 1.5.2 Conformations of Polymer Chains 1.5.3 Size of a Freely Jointed Chain1.5.4 Size of an Ideal Chain with Fixed Bond Angle; 1.5.5 Flexibility of a Polymer Chain; 1.5.6 Polymer Gels; 1.5.7 Theories of Gelation; Classical Theory or Flory-Stockmayer Model; Percolation Theory; 1.5.8 Polyelectrolytes and Counterion Condensation; Counterion condensation; 1.6 Experimental Techniques in Soft Matter; 1.6.1 Scattering Techniques; Light Scattering; Static Light Scattering; Dynamic Light Scattering; Small-Angle Neutron Scattering; Contrast Factor; Determination of Intraparticle Structure; Polydisperse Particles; Guinier Approximation Porod LawDetermination of Interparticle Structure Factor; Small-Angle X-Ray Scattering; 1.6.2 Microscopy; Cryo-Transmission Electron Microscope; 1.6.3 Rheology; 1.7 Applications of Soft Matter; 1.7.1 Stimuli Responsive Materials; 1.7.2 Soft Materials in Drug Delivery; 1.7.3 Nanotechnology Using Soft Materials; 1.7.4 Oil Field Applications; References; 2 Conducting Polymer Sensors, Actuators and Field-Effect Transistors; 2.1 Introduction; 2.2 Synthesis of Conducting Polymers; 2.2.1 Synthesis of Bulk and Fibre Polyindole; 2.2.2 Synthesis of Crystalline Polyaniline 2.2.3 Films of Conducting Polymers2.3 Conducting Polymer Gas Sensors; 2.3.1 Configuration of Chemiresistor Sensors; 2.3.2 Polycarbazole Langmuir-Blodgett Film-Based Sensors; 2.3.3 Polyaniline Nanofibre Sensors; 2.3.4 Composite Poly(3-hexylthiophene):ZnO-Nanowire-Based NO2 Sensors; 2.3.5 Composite Polypyrrole:ZnO-Nanowire-Based Chlorine Sensor; 2.4 Electrochemical Actuators; 2.4.1 Fabrication of PPy-DBS/Au Free-standing Film; 2.4.2 PPy-DBS/Au Free-standing Film as Actuator; 2.5 Conducting Polymer FETs; 2.5.1 Fabrication of Top-Contact FET; 2.5.2 Characteristics of P3HT Active Layer Functional materials have assumed a very prominent position in several high-tech areas. Such materials are not being classified on the basis of their origin, nature of bonding or processing techniques but are classified on the basis of the functions they can perform. This is a significant departure from the earlier schemes in which materials were described as metals, alloys, ceramics, polymers, glass materials etc. Several new processing techniques have also evolved in the recent past. Because of the diversity of materials and their functions it has become extremely difficult to obtain info English Materials Matériaux TECHNOLOGY & ENGINEERING- Material Science Materials Electronic books Electronic books Banerjee, S. Tyagi, A. K. Print version Functional materials. London : Elsevier, 2012 (DLC) 2011944142 Elsevier insights