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Conducting polymers with micro or nanometer structure par Wan, Meixiang. Publication : New York Springer 2008 . 170 p. , Conducting Polymers with Micro or Nanometer Structure describes a topic discovered by three winners of the Nobel Prize in Chemistry in 2000: Alan J. Heeger, University of California at Santa Barbara, Alan G. MacDiarmid at the University of Pennsylvania, and Hideki Shirakawa at the University of Tsukuba. Since then, the unique properties of conducting polymers have led to promising applications in functional materials and technologies. The book first briefly summarizes the main concepts of conducting polymers before introducing micro/nanostructured conducting polymers dealing with their synthesis, structural characterizations, formation mechanisms, physical and chemical properties, and potential applications in nanomaterials and nanotechnology. The book is intended for researchers in the related fields of chemistry, physics, materials, nanomaterials and nanodevices. Meixiang Wan is a professor at the Institute of Chemistry, Chinese Academy of Sciences, Beijing. 25 cm. Date : 2008 Disponibilité : Exemplaires disponibles: La bibliothèque des Sciences Exactes et Naturelles (1),

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Conducting polymers, fundamentals and applications a practical approach par Chandrasekhar, Prasanna. Publication : Boston Springer 1999 . 760 p. , This book deals with the practical fundamentals and applications of conducting polymers. Written from a pedagogical point of view and at a very basic level, it provides a thorough grounding in CPs ideal for further work, as a reference, or as a supplementary course text. 23 cm. Date : 1999 Disponibilité : Exemplaires disponibles: La bibliothèque des sciences de l'ingénieur (1),

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Conductive electroactive polymers : intelligent polymer systems par Wallace, Gordon G. Publication : [S.l.] CRC Press 2009 . 263 p. , Rapid advances in synthetic polymer science and nanotechnology have revealed new avenues of development in conductive electroactive polymers that take greater advantage of this versatile class of materials’ unique properties. This third edition of Conductive Electroactive Polymers: Intelligent Polymer Systems continues to provide an in-depth understanding of how to engineer dynamic properties in inherently conducting polymers from the molecular level. New to the third edition: Biomedical, MEMS, and electronic textile applications The synthesis and fabrication of nanocomponents and nanostructures The energy role of nanotechnology in improving the performance of conducting materials in devices Electrochemical Raman, electrochemical ESR, and scanning vibrating reference electrode studies After establishing the basic principles of polymer chemistry, the book pinpoints the dynamic properties of the more useful conducting polymers, such as polupyrroles, polythiophenes, and polyanilines. It then demonstrates how the control of these properties enables cutting-edge applications in nano, biomedicine, and MEMS as well as sensors and artificial muscles. Subsequent chapters discuss the effect of nanodimensional control on the resultant properties. Updated to reflect substantial developments and advances that have occurred in the past few years, this third edition of Conductive Electroactive Polymers unlocks a world of potential for integrating and interfacing conductive polymers. 24 cm. Date : 2009 Disponibilité : Exemplaires disponibles: La bibliothèque des sciences de l'ingénieur (1),

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Electroactive polymer gel robots modelling and control of artificial muscles par Otake, Mihoko Publication : [S.l.] Springer 2010 . 238 p. , The monograph written by Mihoko Otake combines ideas from chemistry and physics, material science and engineering for the revolutionary development of the so-called gel robots. Electroactive polymers are introduced to build new types of muscular-like actuation for deformable robots. The coverage spans from modelling and design to the development, control and experimental testing. A number of methods are proposed for describing the shapes and motions of such systems. The results are demonstrated for beam-shaped gels curling around an object and starfish-shaped gel robots turning over. 24 cm. Date : 2010 Disponibilité : Exemplaires disponibles: La bibliothèque des sciences de l'ingénieur (1),

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