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  • 1
    Online Resource
    Online Resource
    Bio-Nanomaterials : designing materials inspired by nature (2013)
    Weinheim : Wiley-VCH
    Details
    UID:
    gbv_167958829X
    Format: 1 Online-Ressource (xi, 458 pages)
    ISBN: 1299558976 , 3527655298 , 3527655263 , 9783527655298 , 9781299558977 , 9783527655267
    Content: 1.3.2.1 Biomolecular Templates for Submicrometer Electronic Circuitries1.3.2.2 DNA-Based Nanoprobes; 1.3.3 Protein-Based Nanotechnology; References; 2 Molecular Recognition; 2.1 Case Study; 2.2 Basic Principles; 2.2.1 Complementary Interaction between Proteins and Ligands; 2.2.2 Cooperative Protein-Ligand Interaction; 2.2.3 The Enzyme-Linked Immunosorbent Assay; 2.3 Engineering of Biomolecular Recognition Systems; 2.3.1 Engineering of Protein-Based Bioaffine Materials; 2.3.1.1 Interfacing Mechanisms of Proteins via Bioaffinity; 2.3.2 Engineering of Sensing Biofunctionalized Materials.
    Content: 2.3.2.1 Design Principles of Biosensors2.3.2.2 Integration of Sensing Biological Elements and Transducer Units; References; 3 Cell Adhesion; 3.1 Case Study; 3.2 Basic Principles; 3.2.1 The Cellular Mechanotransduction System; 3.2.2 Mechanical Impact of the ECM on Cell Development; 3.2.3 Influence of the Microenvironment Topology on the Cell Spreading and Development; 3.3 Bioengineering; 3.3.1 The Basic Approach and Goals; 3.3.2 Tailored Surfaces for In Vitro Culturing of Cells; 3.3.2.1 A Modular Polymer Platform for Mechanically Regulated Cell Culturing at Interfaces.
    Content: 3.3.2.2 Regulation of Cell Fate by Nanostructured Surfaces3.3.3 Three-Dimensional Scaffolds for Tissue Engineering; 3.3.4 Switchable Substrates and Matrices; References; 4 Whole-Cell Sensor Structures; 4.1 Case Studies; 4.2 Basic Principles; 4.3 Bioengineering; References; 5 Biohybrid Silica-Based Materials; 5.1 Case Studies; 5.2 Basic Principles; 5.2.1 Preparation of Silica-Based Xerogels; 5.2.2 Biological Properties of Silica-Based Biocers; 5.3 Bioengineering; 5.3.1 Bioactive Sol-Gel Coatings and Composites; 5.3.2 Biocatalytic Sol-Gel Coatings; 5.3.3 Bioremediation.
    Content: 5.3.4 Cell-Based Bioreactors5.3.5 Silica-Based Controlled Release Structures; 5.3.6 Patterned Structures; 5.4 Silicified Geological Biomaterials; References; 6 Biomineralization; 6.1 Case Studies; 6.2 Basic Principles; 6.2.1 Precipitation; 6.2.1.1 Thermodynamics of Mineralization; 6.2.1.2 Kinetics of Mineralization; 6.2.2 Phenomenology of Biomineralization; 6.2.3 Basic Mechanisms in Biomineralization; 6.2.4 Biologically Mediated Mineralization: the Competition between Inhibition and Growth; 6.2.4.1 Effect of Polypeptides on Precipitate Habitus; 6.2.4.2 The Formation of Metastable Polymorphs.
    Content: Bio-nanotechnology covers the development of novel techniques and materials by making use ofthe inspiration derived from biomolecular structures and processes. The progress in molecular biology and microbiology over the past 50 years has provided a solid basis for such development. Well characterized natural biomolecules as well as tailored recombinant proteins and tailored microorganisms obtained by genetic engineering provide a large ""toolbox"" for the implementation ofbiological structures in a technical environment. Biologically inspired mater
    Content: Bio-Nanomaterials: Designing materials inspired by nature; Contents; Preface; 1 Molecular Units; 1.1 Case Studies; 1.1.1 Nucleic Acids; 1.1.2 Proteins; 1.1.3 Carbohydrates; 1.1.4 Lipids; 1.2 Basic Principles; 1.2.1 The Persistence Lengths of Biopolymer Chains; 1.2.2 Equilibrium Shape of a Semiflexible Polymer Chain; 1.2.3 The Load-Extension Diagram of a Semiflexible Polymer Chain; 1.2.4 Cooperativity; 1.2.5 Protein Folding; 1.2.6 DNA Melting Transition; 1.2.7 Biocatalytic Reactions; 1.3 Bioengineering; 1.3.1 Biointerfacing; 1.3.2 DNA-Based Nanotechnology.
    Note: Includes bibliographical references and index
    Additional Edition: ISBN 9783527410156
    Additional Edition: Erscheint auch als Druck-Ausgabe Pompe, Wolfgang Bio-nanomaterials Weinheim : Wiley-VCH, [2013] ISBN 9783527410156
    Language: English
    Keywords: Nanobiotechnologie
    DOI: 10.1002/9783527655267
    URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9783527655267
    URL: Volltext
    URL: Inhaltstext
    Author information: Pompe, Wolfgang
    Library Location Call Number Volume/Issue/Year Availability
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    Online Resource
    Online Access
    Open Access Request
    UB Potsdam
  • 2
    Online Resource
    Online Resource
    Bio-Nanomaterials : designing materials inspired by nature (2013)
    Weinheim :Wiley-VCH,
    Details
    UID:
    almahu_9948198058802882
    Format: 1 online resource (xi, 458 pages)
    ISBN: 9783527655267 , 9783527655298 , 3527655298 , 1299558976 , 9781299558977 , 3527655263
    Content: Bio-nanotechnology covers the development of novel techniques and materials by making use ofthe inspiration derived from biomolecular structures and processes. The progress in molecular biology and microbiology over the past 50 years has provided a solid basis for such development. Well characterized natural biomolecules as well as tailored recombinant proteins and tailored microorganisms obtained by genetic engineering provide a large ""toolbox"" for the implementation ofbiological structures in a technical environment. Biologically inspired mater.
    Note: Bio-Nanomaterials: Designing materials inspired by nature; Contents; Preface; 1 Molecular Units; 1.1 Case Studies; 1.1.1 Nucleic Acids; 1.1.2 Proteins; 1.1.3 Carbohydrates; 1.1.4 Lipids; 1.2 Basic Principles; 1.2.1 The Persistence Lengths of Biopolymer Chains; 1.2.2 Equilibrium Shape of a Semiflexible Polymer Chain; 1.2.3 The Load-Extension Diagram of a Semiflexible Polymer Chain; 1.2.4 Cooperativity; 1.2.5 Protein Folding; 1.2.6 DNA Melting Transition; 1.2.7 Biocatalytic Reactions; 1.3 Bioengineering; 1.3.1 Biointerfacing; 1.3.2 DNA-Based Nanotechnology. , 1.3.2.1 Biomolecular Templates for Submicrometer Electronic Circuitries1.3.2.2 DNA-Based Nanoprobes; 1.3.3 Protein-Based Nanotechnology; References; 2 Molecular Recognition; 2.1 Case Study; 2.2 Basic Principles; 2.2.1 Complementary Interaction between Proteins and Ligands; 2.2.2 Cooperative Protein-Ligand Interaction; 2.2.3 The Enzyme-Linked Immunosorbent Assay; 2.3 Engineering of Biomolecular Recognition Systems; 2.3.1 Engineering of Protein-Based Bioaffine Materials; 2.3.1.1 Interfacing Mechanisms of Proteins via Bioaffinity; 2.3.2 Engineering of Sensing Biofunctionalized Materials. , 2.3.2.1 Design Principles of Biosensors2.3.2.2 Integration of Sensing Biological Elements and Transducer Units; References; 3 Cell Adhesion; 3.1 Case Study; 3.2 Basic Principles; 3.2.1 The Cellular Mechanotransduction System; 3.2.2 Mechanical Impact of the ECM on Cell Development; 3.2.3 Influence of the Microenvironment Topology on the Cell Spreading and Development; 3.3 Bioengineering; 3.3.1 The Basic Approach and Goals; 3.3.2 Tailored Surfaces for In Vitro Culturing of Cells; 3.3.2.1 A Modular Polymer Platform for Mechanically Regulated Cell Culturing at Interfaces. , 3.3.2.2 Regulation of Cell Fate by Nanostructured Surfaces3.3.3 Three-Dimensional Scaffolds for Tissue Engineering; 3.3.4 Switchable Substrates and Matrices; References; 4 Whole-Cell Sensor Structures; 4.1 Case Studies; 4.2 Basic Principles; 4.3 Bioengineering; References; 5 Biohybrid Silica-Based Materials; 5.1 Case Studies; 5.2 Basic Principles; 5.2.1 Preparation of Silica-Based Xerogels; 5.2.2 Biological Properties of Silica-Based Biocers; 5.3 Bioengineering; 5.3.1 Bioactive Sol-Gel Coatings and Composites; 5.3.2 Biocatalytic Sol-Gel Coatings; 5.3.3 Bioremediation. , 5.3.4 Cell-Based Bioreactors5.3.5 Silica-Based Controlled Release Structures; 5.3.6 Patterned Structures; 5.4 Silicified Geological Biomaterials; References; 6 Biomineralization; 6.1 Case Studies; 6.2 Basic Principles; 6.2.1 Precipitation; 6.2.1.1 Thermodynamics of Mineralization; 6.2.1.2 Kinetics of Mineralization; 6.2.2 Phenomenology of Biomineralization; 6.2.3 Basic Mechanisms in Biomineralization; 6.2.4 Biologically Mediated Mineralization: the Competition between Inhibition and Growth; 6.2.4.1 Effect of Polypeptides on Precipitate Habitus; 6.2.4.2 The Formation of Metastable Polymorphs.
    Additional Edition: Print version: Pompe, Wolfgang. Bio-nanomaterials. Weinheim : Wiley-VCH, [2013] ISBN 9783527410156
    Language: English
    Keywords: Electronic books.
    URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9783527655267
    Library Location Call Number Volume/Issue/Year Availability
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    Online Resource
    HU Berlin
  • 3
    Online Resource
    Online Resource
    Bio-Nanomaterials : designing materials inspired by nature (2013)
    Weinheim :Wiley-VCH,
    Details
    UID:
    almafu_9959327918702883
    Format: 1 online resource (xi, 458 pages)
    ISBN: 9783527655267 , 9783527655298 , 3527655298 , 1299558976 , 9781299558977 , 3527655263
    Content: Bio-nanotechnology covers the development of novel techniques and materials by making use ofthe inspiration derived from biomolecular structures and processes. The progress in molecular biology and microbiology over the past 50 years has provided a solid basis for such development. Well characterized natural biomolecules as well as tailored recombinant proteins and tailored microorganisms obtained by genetic engineering provide a large ""toolbox"" for the implementation ofbiological structures in a technical environment. Biologically inspired mater.
    Note: Bio-Nanomaterials: Designing materials inspired by nature; Contents; Preface; 1 Molecular Units; 1.1 Case Studies; 1.1.1 Nucleic Acids; 1.1.2 Proteins; 1.1.3 Carbohydrates; 1.1.4 Lipids; 1.2 Basic Principles; 1.2.1 The Persistence Lengths of Biopolymer Chains; 1.2.2 Equilibrium Shape of a Semiflexible Polymer Chain; 1.2.3 The Load-Extension Diagram of a Semiflexible Polymer Chain; 1.2.4 Cooperativity; 1.2.5 Protein Folding; 1.2.6 DNA Melting Transition; 1.2.7 Biocatalytic Reactions; 1.3 Bioengineering; 1.3.1 Biointerfacing; 1.3.2 DNA-Based Nanotechnology. , 1.3.2.1 Biomolecular Templates for Submicrometer Electronic Circuitries1.3.2.2 DNA-Based Nanoprobes; 1.3.3 Protein-Based Nanotechnology; References; 2 Molecular Recognition; 2.1 Case Study; 2.2 Basic Principles; 2.2.1 Complementary Interaction between Proteins and Ligands; 2.2.2 Cooperative Protein-Ligand Interaction; 2.2.3 The Enzyme-Linked Immunosorbent Assay; 2.3 Engineering of Biomolecular Recognition Systems; 2.3.1 Engineering of Protein-Based Bioaffine Materials; 2.3.1.1 Interfacing Mechanisms of Proteins via Bioaffinity; 2.3.2 Engineering of Sensing Biofunctionalized Materials. , 2.3.2.1 Design Principles of Biosensors2.3.2.2 Integration of Sensing Biological Elements and Transducer Units; References; 3 Cell Adhesion; 3.1 Case Study; 3.2 Basic Principles; 3.2.1 The Cellular Mechanotransduction System; 3.2.2 Mechanical Impact of the ECM on Cell Development; 3.2.3 Influence of the Microenvironment Topology on the Cell Spreading and Development; 3.3 Bioengineering; 3.3.1 The Basic Approach and Goals; 3.3.2 Tailored Surfaces for In Vitro Culturing of Cells; 3.3.2.1 A Modular Polymer Platform for Mechanically Regulated Cell Culturing at Interfaces. , 3.3.2.2 Regulation of Cell Fate by Nanostructured Surfaces3.3.3 Three-Dimensional Scaffolds for Tissue Engineering; 3.3.4 Switchable Substrates and Matrices; References; 4 Whole-Cell Sensor Structures; 4.1 Case Studies; 4.2 Basic Principles; 4.3 Bioengineering; References; 5 Biohybrid Silica-Based Materials; 5.1 Case Studies; 5.2 Basic Principles; 5.2.1 Preparation of Silica-Based Xerogels; 5.2.2 Biological Properties of Silica-Based Biocers; 5.3 Bioengineering; 5.3.1 Bioactive Sol-Gel Coatings and Composites; 5.3.2 Biocatalytic Sol-Gel Coatings; 5.3.3 Bioremediation. , 5.3.4 Cell-Based Bioreactors5.3.5 Silica-Based Controlled Release Structures; 5.3.6 Patterned Structures; 5.4 Silicified Geological Biomaterials; References; 6 Biomineralization; 6.1 Case Studies; 6.2 Basic Principles; 6.2.1 Precipitation; 6.2.1.1 Thermodynamics of Mineralization; 6.2.1.2 Kinetics of Mineralization; 6.2.2 Phenomenology of Biomineralization; 6.2.3 Basic Mechanisms in Biomineralization; 6.2.4 Biologically Mediated Mineralization: the Competition between Inhibition and Growth; 6.2.4.1 Effect of Polypeptides on Precipitate Habitus; 6.2.4.2 The Formation of Metastable Polymorphs.
    Additional Edition: Print version: Pompe, Wolfgang. Bio-nanomaterials. Weinheim : Wiley-VCH, [2013] ISBN 9783527410156
    Language: English
    Keywords: Electronic books. ; Electronic books.
    URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9783527655267
    URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9783527655267
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
    Online Resource
    FU Berlin
  • 4
    Book
    Book
    Bio-nanomaterials : designing materials inspired by nature (2013)
    Weinheim, Bergstr : Wiley-VCH Verl.
    Details
    UID:
    kobvindex_ZLB15680243
    Format: XI, 458 Seiten S. , Ill., graph. Darst. , 240 mm x 170 mm
    Edition: 1
    ISBN: 9783527410156 , 3527410155
    Language: English
    Keywords: Nanobiotechnologie ; Werkstoffkunde
    Library Location Call Number Volume/Issue/Year Availability
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    Book
    Berlin VÖBB/ZLB get availability status
  • 5
    Book
    Book
    Bio-nanomaterials : designing materials inspired by nature (2013)
    Weinheim :Wiley-VCH,
    Details
    UID:
    almahu_BV041065848
    Format: XI, 458 S. : , Ill., graph. Darst. ; , 240 mm x 170 mm.
    ISBN: 978-3-527-41015-6 , 3-527-41015-5
    Language: English
    Subjects: Biology
    RVK:
    WC 3420
    RVK:
    WD 2200
    Keywords: Nanobiotechnologie
    URL: Inhaltstext
    URL: Inhaltsverzeichnis
    Library Location Call Number Volume/Issue/Year Availability
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    Book
    HU Berlin get availability status
  • 6
    Book
    Book
    Bio-nanomaterials : designing materials inspired by nature (2013)
    Weinheim : Wiley-VCH
    Details
    UID:
    gbv_735147299
    Format: XI, 458 S. , Ill., graph. Darst. , 25 cm
    ISBN: 3527410155 , 9783527410156
    Note: Literaturangaben
    Additional Edition: ISBN 9783527655298
    Additional Edition: ISBN 9783527655281
    Additional Edition: ISBN 9783527655274
    Additional Edition: ISBN 9783527655267
    Additional Edition: Online-Ausg. u.d.T. Pompe, Wolfgang Bio-Nanomaterials Weinheim : Wiley-VCH, 2013 ISBN 9783527655298
    Language: English
    Subjects: Engineering , Chemistry/Pharmacy
    RVK:
    ZM 7070
    RVK:
    VE 9850
    Keywords: Nanobiotechnologie
    URL: Inhaltstext
    URL: Cover
    URL: Inhaltsverzeichnis
    Author information: Pompe, Wolfgang
    Library Location Call Number Volume/Issue/Year Availability
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    UB Potsdam get availability status
  • 7
    Online Resource
    Online Resource
    Bio-nanomaterials : designing materials inspired by nature (2013)
    Weinheim : Wiley-VCH
    Details
    UID:
    b3kat_BV041346177
    Format: 1 Online-Ressource
    ISBN: 9783527655267 , 9783527655274 , 9783527655281 , 9783527655298
    Additional Edition: Erscheint auch als Druckausgabe ISBN 978-3-527-41015-6
    Language: English
    Subjects: Biology
    RVK:
    WD 2200
    RVK:
    WC 3420
    Keywords: Nanobiotechnologie
    DOI: 10.1002/9783527655267
    URL: Volltext
    Author information: Pompe, Wolfgang
    Library Location Call Number Volume/Issue/Year Availability
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    Online Resource
    Online Access
    Open Access Request
    TU Berlin
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