Chapter 6. Biomaterial-Nanoparticle Hybrid Systems: Synthesis, Properties, and Applications

  1. Prof. Dr. Günter Schmid
  1. Eugenii Katz1,
  2. Andrew N. Shipway1 and
  3. Itamar Willner2

Published Online: 28 JAN 2005

DOI: 10.1002/3527602399.ch6

Nanoparticles: From Theory to Application

Nanoparticles: From Theory to Application

How to Cite

Katz, E., Shipway, A. N. and Willner, I. (2003) Biomaterial-Nanoparticle Hybrid Systems: Synthesis, Properties, and Applications, in Nanoparticles: From Theory to Application (ed G. Schmid), Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim, FRG. doi: 10.1002/3527602399.ch6

Editor Information

  1. Institute of Inorganic Chemistry, University Duisburg-Essen, Universitätsstr. 5-7, 45117 Essen, Germany

Author Information

  1. 1

    Department of Chemistry, The Hebrew University of Jerusalem Givat Ram, 91904 Jerusalem, Israel

  2. 2

    The Institute of Chemistry, The Hebrew University of Jerusalem, 91904 Jerusalem, Israel

Publication History

  1. Published Online: 28 JAN 2005
  2. Published Print: 17 DEC 2003

ISBN Information

Print ISBN: 9783527305070

Online ISBN: 9783527602391

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Keywords:

  • biomaterial-nanoparticle hybrid systems;
  • synthesis;
  • properties;
  • applications;
  • electrostatic adsorption;
  • chemisorption;
  • controlled chemical reactivity;
  • optical sensing;
  • electronic circuitry

Summary

  • Introduction

  • The Synthesis and Properties of Biomaterial-Functionalized Nanoparticles

    • Functionalization by Electrostatic Adsorption

    • Functionalization by Chemisorption of Thiol-Derivatized Biomaterials

    • Functionalization by Specific Interactions

    • Properties of Nanoparticle-Biomaterial Composites

  • Biomaterial-Functionalized Nanoparticles for Controlled Chemical Reactivity

    • Controlling DNA Reactivity

    • Reporting on DNA Reactivity

  • The Aggregation of Biomaterial-Functionalized Nanoparticles

    • Receptor-Induced Aggregation of Guest-Functionalized Nanoparticles

    • Nucleic Acid-Functionalized Nanoparticles for Controlled Aggregation

    • Composite Assemblies of Nucleic Acids, Proteins, and Nanoparticles

  • Assembly of Biomaterial-Nanoparticle Architectures on Surfaces

    • Assembly of Layered Nanoparticle-Protein Assemblies

    • Nucleic Acid – Nanoparticle Architectures on Surfaces

  • Functional Biomaterial-Nanoparticle Structures on Surfaces for Sensoric and Electronic Applications

    • Nanoparticle-Biomaterial Conjugates for Optical Sensing and Analysis

    • Electronic Transduction of Biosensing Events by Nanoparticle-Biomaterial-Functionalized Arrays

    • Biomaterial-Nanoparticle Arrays for Electronic Circuitry

  • Biomaterial-Functionalized Magnetic Particles

  • References