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Biomimetics [electronic resource] : a Molecular Perspective.

By: Material type: TextTextSeries: De Gruyter textbookPublication details: Berlin : De Gruyter, 2013.Description: 1 online resource (260 pages)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9783110281194 (electronic bk.)
  • 3110281198 (electronic bk.)
Subject(s): Genre/Form: Additional physical formats: Print version:: Biomimetics : A Molecular Perspective.DDC classification:
  • 610.824
LOC classification:
  • QP517 .B56
Online resources:
Contents:
1 Introduction; 2 Bio-inspired and bio-hybrid materials; 2.1 Biomimetic functional materials; 2.2 Protein-based functional materials; 2.3 Bioelectronics; 2.4 Microorganism-synthesized biomimetic materials; 3 Biomimetic surfaces; 3.1 Adhesion and wetting; 3.2 Color and photonics; 3.3 Biosensing; 3.4 Cell-surface interactions; 4 Tissue Engineering; 4.1 Artificial organs; 4.2 Tissue engineering; 4.2.1 Cell seeding and growth in engineered tissues; 4.2.2 TE scaffolds; 4.2.3 Tissue-engineered cartilage: a case study; 4.3 Tissue engineering and drug design; 5 Biomineralization.
5.1 Protein- and peptide-associated biomineralization5.2 Organism-templated biomineralization; 6 Synthetic biology; 6.1 Synthetic proteins; 6.2 Directed evolution; 6.3 Protein modeling and synthetic proteins; 6.4 Engineered oligonucleotides and synthetic genes; 6.5 Synthetic functional biomolecules; 6.6 Artificial chromosomes; 6.7 Engineered microorganisms; 7 Artificial cells; 7.1 Biomimetic membranes; 7.2 Artificial cell division; 7.3 Biomolecules encapsulated in artificial cells; 7.4 Artificial replication; 8 Drug delivery; 9 DNA and RNA nanotechnology; 9.1 Basics of DNA nanostructures.
9.2 DNA origami9.3 DNA-based advanced materials; 9.4 RNA nanostructures; 9.5 DNA-based computing; 10 Mimicking biological phenomena and concepts; 10.1 Catalytic antibodies; 10.2 Artificial photosynthesis; 10.3 Bio-inspired motors; 10.4 Artificial muscles; 10.5 Biomimetic pores and channels; 10.6 Biomimetic signaling pathways; 10.7 Electronic noses; 10.8 Neural networks and biologically-inspired computers; Further Reading; Index.
Summary: Open publication Biological systems have always inspired mankind in the creation of new systems and technologies. In recent years the interfaces between the biological and non-biological worlds appear increasingly blurred due to significant advances both in our understanding of biological phenomena, as well as the development of sophisticated means to manipulate biological systems for varied applications. Biomimetics as a discipline shows how biology and biological processes are manifested in diverse aspects of chemistry, physics and engineering. This book aims to methodically describe artific.
Holdings
Item type Current library Collection Call number Status Date due Barcode Item holds
eBook eBook e-Library EBSCO Technology Available
Total holds: 0

1 Introduction; 2 Bio-inspired and bio-hybrid materials; 2.1 Biomimetic functional materials; 2.2 Protein-based functional materials; 2.3 Bioelectronics; 2.4 Microorganism-synthesized biomimetic materials; 3 Biomimetic surfaces; 3.1 Adhesion and wetting; 3.2 Color and photonics; 3.3 Biosensing; 3.4 Cell-surface interactions; 4 Tissue Engineering; 4.1 Artificial organs; 4.2 Tissue engineering; 4.2.1 Cell seeding and growth in engineered tissues; 4.2.2 TE scaffolds; 4.2.3 Tissue-engineered cartilage: a case study; 4.3 Tissue engineering and drug design; 5 Biomineralization.

5.1 Protein- and peptide-associated biomineralization5.2 Organism-templated biomineralization; 6 Synthetic biology; 6.1 Synthetic proteins; 6.2 Directed evolution; 6.3 Protein modeling and synthetic proteins; 6.4 Engineered oligonucleotides and synthetic genes; 6.5 Synthetic functional biomolecules; 6.6 Artificial chromosomes; 6.7 Engineered microorganisms; 7 Artificial cells; 7.1 Biomimetic membranes; 7.2 Artificial cell division; 7.3 Biomolecules encapsulated in artificial cells; 7.4 Artificial replication; 8 Drug delivery; 9 DNA and RNA nanotechnology; 9.1 Basics of DNA nanostructures.

9.2 DNA origami9.3 DNA-based advanced materials; 9.4 RNA nanostructures; 9.5 DNA-based computing; 10 Mimicking biological phenomena and concepts; 10.1 Catalytic antibodies; 10.2 Artificial photosynthesis; 10.3 Bio-inspired motors; 10.4 Artificial muscles; 10.5 Biomimetic pores and channels; 10.6 Biomimetic signaling pathways; 10.7 Electronic noses; 10.8 Neural networks and biologically-inspired computers; Further Reading; Index.

Open publication Biological systems have always inspired mankind in the creation of new systems and technologies. In recent years the interfaces between the biological and non-biological worlds appear increasingly blurred due to significant advances both in our understanding of biological phenomena, as well as the development of sophisticated means to manipulate biological systems for varied applications. Biomimetics as a discipline shows how biology and biological processes are manifested in diverse aspects of chemistry, physics and engineering. This book aims to methodically describe artific.

Description based on print version record.

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