Synthesis and function control of biofunctionality materials

Bibliographic Information

Synthesis and function control of biofunctionality materials

edited by T. Tsuruta ... [et al.]

(New functionality materials, v. B)

Elsevier, 1993

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Includes bibliographical references and indexes

Description and Table of Contents

Description

Biofunctionality materials are defined as key materials which support medical engineering and biological engineering, covering biospecific materials and biosimulating materials. Typical examples of biospecific materials are the biocompatible materials used for artificial organs. Biofunctionality materials are synthesized from the view point of functionality design. In order to create innovative biofunctionality materials, an interdisciplinary field without boundary lines between inorganic, organic, and polymer materials fields is necessary. A comprehensive selection of 54 articles describing the results of work carried out by the members of a project research program is presented in this volume. The objective of this research program was to promote the creation of novel functional materials at atomic or molecular level, on the nature of functionality materials, i.e. metals, semiconductors, ceramics, organic polymers, and their composites or hybridized materials. The aim of this book is to provide a global overview on the scientific and technological information which has been produced by this research project on the design, synthesis and function control of biofunctionality materials. Their success in yielding new ideas, new techniques, and new products in the biofunctionality materials field is reflected in these contributions. This volume, together with its companion volumes A and C, which focus on Optical and Quantum Structural Properties of Semiconductors and Synthetic Process and Control of Functionality Materials respectively, will serve as valuable assets to scientists in academic, governmental and industrial institutions, providing insights into newly developing research areas in functionality materials.

Table of Contents

  • Part 1 Control of specific response at interface: enhanced growth of anchorage-dependent cells on immobilized cell-growth factors, Y. Imanishi and Y. Ito
  • hybrid microspheres for biospecific recognition and separation, H. Kawaguchi and K. Fujimoto
  • environmentally induced surface responses on multicomponent polymer materials, T. Shiomi and Y. Tezuka
  • synthesis of sulfate polysaccharides having inhibitory and destructive effects on aids virus infection, T. Uryu et al. Part 2 Transduction of biosignals: design of molecular information system, M. Aizawa
  • use of CO[2] stress signal transducing function of a plant leaf in odor sensing, H. Matsuoka et al
  • self-organization of intelligence by non-linear chemical dynamics, T. Ueda et al
  • construction of polypeptide molecular modules with photoelectronic functions, N. Nishino and H. Mihara
  • contraction behavior of poly(acrylonitrile) gel fibers - application to an artificial muscle, N. Okui and S. Umemoto. Part 3 Activation of biosystems: development of new functionality materials for promoting drug transport across skin, T. Nagai and K. Takayama
  • release control of drugs from microcapsules in response to external stimuli, T. Takagishi and K. Kono
  • effective transport of bioactive materials to cell using specifically modified liposomes, J. Sunamoto et al. Part 4 Control of cell functions: mechanism of reduced cytoplasmic calcium changes in platelets in contact with microdomain-structured surfaces, Y. Sakurai et al
  • vitronectin for functional cell-adhesive biomaterials, M. Hayashi et al
  • design of thermostable enzymes with regulatory function and their application, K. Soda and N. Esaki
  • construction of artificial organelles as biocatalysts with multifunctional activities and multistep reactions, A. Tanaka and M. Ueda. Part 5 Acceleration of tissue construction: design of hepatocyte recognition polymer and its application to the reconstruction of liver tissue for hybrid artificial organ, T. Aknike et al
  • engineering of artificial cell adhesive proteins by grafting oligopeptide motifs derived from fibronectin and laminin, K. Sekiguchi and T. Maeda
  • microencapsulated islets for bioartificial pancreas, H. Iwata
  • synthesis of biofunctional fine materials - biointeraction and clinical application of synthetic material, M. Aono et al.

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Details

  • NCID
    BA21639752
  • ISBN
    • 0444816135
  • LCCN
    93167294
  • Country Code
    ne
  • Title Language Code
    eng
  • Text Language Code
    eng
  • Place of Publication
    Amsterdam
  • Pages/Volumes
    xii, 398 p.
  • Size
    27 cm
  • Classification
  • Subject Headings
  • Parent Bibliography ID
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