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Bioinspired inorganic materials : structure and function (2019)

Hall, Simon R. [HerausgeberIn]

Cambridge : Royal Society of Chemistry

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UID:

gbv_1672252423

Format: 1 Online-Ressource (xii, 283 Seiten) , Illustrationen, Diagramme

ISBN: 9781788015806 , 9781788018739

Series Statement: Inorganic materials series no. 4

Content: Cover; Series Preface; Preface; Contents; Chapter 1 Bioinspired Synthesis: History, Fundamentals and Outlook; 1.1 Introduction; 1.1.1 Early Human Use of Nature; 1.1.2 Structures in Nature; 1.2 Materials with Short-range Order: Glasses; 1.2.1 Introduction; 1.2.2 What are Glasses?; 1.2.3 Biological Glasses; 1.2.4 Bioinspired Glasses; 1.2.5 Summary; 1.3 Materials with Long-range Order: Metals and Ceramics; 1.3.1 Introduction; 1.3.2 Natural Processes; 1.3.3 Natural Calcium Carbonate; 1.3.4 Use of the Nacre Structure in Ceramics; 1.3.5 Artificial Calcium Carbonate

Content: 1.3.6 Chemistry and Control in Bioinspired Synthesis1.3.7 Biotemplating in Oxides; 1.3.8 Types of Templating; 1.3.9 Soft Biotemplating; 1.3.10 Hard Biotemplating; 1.4 Biotemplating Considerations; 1.4.1 Solubility; 1.4.2 pH/pKa; 1.4.3 Counter Ions; 1.5 Non-aqueous (Bio)templating; 1.5.1 Ionic Liquids; 1.5.2 Deep Eutectic Solvents; 1.6 Summary; References; Chapter 2 Bioinspired Surfaces; 2.1 Introduction; 2.2 Thermodynamics of Molecular Scale Surfaces; 2.3 Contact Angle and Surface Free Energy Measurements; 2.3.1 Volume Absorption Measurements by Sessile Drop Shape Analysis Methods

Content: 2.3.2 Application and Control of Surface Energy and Contact Angle2.4 Bioinspired Non-wetting Surfaces; 2.5 Bioinspired Wetting Surfaces; 2.5.1 Phospholipids; 2.5.2 Mucins; 2.5.3 The Eye: A Biolubricant Wetting Example; 2.6 Adhesion at the Molecular Level: Synthetic and Natural; 2.6.1 Biological Adhesives; 2.6.2 Synthetic Reactive Molecular Adhesives; 2.6.3 Silicone or Polysiloxane; 2.7 Soft Lithography of Soft Surfaces; 2.8 Biomolecular Surfaces; 2.8.1 Proteins at Surfaces; 2.8.2 Biofouling and Bioinspired Antimicrobial Surfaces

Content: 2.9 Creating and Characterising Biological andBioinspired Surfaces Using Atomic Force Microscopy2.9.1 AFM Hardware and Set-up; 2.9.2 Surface Forces and Tip-Sample Interaction; 2.10 Function and Form in Bioinspired Surfaces on the Macroscale; References; Chapter 3 Energy Conversion and Storage; 3.1 Introduction; 3.2 Photovoltaics; 3.3 Thermal Energy Storage Systems and Phase Change Materials; 3.4 Batteries; 3.5 Supercapacitors; 3.6 Outlook; Acknowledgements; References; Chapter 4 Biomimetics of Structural Colours: Materials, Methods and Applications; 4.1 Introduction

Content: 4.2 Natural Structural Colours4.2.1 Physical Origins of Natural Structural Colours; 4.2.2 Model Systems of Natural Structural Colours for Biomimicry; 4.3 Biomimicry of Natural Structural Colours; 4.3.1 Top-down Strategies; 4.3.2 Bottom-up Strategies; 4.3.3 Scaled-up Production; 4.4 Applications; 4.4.1 Responsive and Tuneable Structural Colours; 4.4.2 Surface Engineering with Structurally Coloured Systems; 4.4.3 Structural Colours in Art, Cosmetics, Paints and Textiles; 4.5 Conclusions; References; Chapter 5 Bioinspired Approaches to Bone; 5.1 Introduction

Content: This book covers big breakthroughs in bionispiration for energy applications, surface technology, metamaterials and ceramics for regenerative medicine

Additional Edition: ISBN 9781788011464

Additional Edition: Erscheint auch als Druck-Ausgabe Bioinspired inorganic materials Cambridge : Royal Society of Chemistry, 2019 ISBN 9781788011464

Language: English

Keywords: Bionik ; Biomaterial

DOI: 10.1039/9781788015806

URL: Volltext

URL: lizenzpflichtig

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Online Resource

Bioinspired inorganic materials : structure and function (2019)

Hall, Simon R., [editor.]

London :Royal Society of Chemistry,

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UID:

almahu_9949388160002882

Format: 1 online resource

ISBN: 9781788015806 , 1788015800 , 9781788018739 , 1788018737

Series Statement: Inorganic materials series ; no. 4

Content: This book covers big breakthroughs in bionispiration for energy applications, surface technology, metamaterials and ceramics for regenerative medicine.

Note: Cover; Series Preface; Preface; Contents; Chapter 1 Bioinspired Synthesis: History, Fundamentals and Outlook; 1.1 Introduction; 1.1.1 Early Human Use of Nature; 1.1.2 Structures in Nature; 1.2 Materials with Short-range Order: Glasses; 1.2.1 Introduction; 1.2.2 What are Glasses?; 1.2.3 Biological Glasses; 1.2.4 Bioinspired Glasses; 1.2.5 Summary; 1.3 Materials with Long-range Order: Metals and Ceramics; 1.3.1 Introduction; 1.3.2 Natural Processes; 1.3.3 Natural Calcium Carbonate; 1.3.4 Use of the Nacre Structure in Ceramics; 1.3.5 Artificial Calcium Carbonate , 1.3.6 Chemistry and Control in Bioinspired Synthesis1.3.7 Biotemplating in Oxides; 1.3.8 Types of Templating; 1.3.9 Soft Biotemplating; 1.3.10 Hard Biotemplating; 1.4 Biotemplating Considerations; 1.4.1 Solubility; 1.4.2 pH/pKa; 1.4.3 Counter Ions; 1.5 Non-aqueous (Bio)templating; 1.5.1 Ionic Liquids; 1.5.2 Deep Eutectic Solvents; 1.6 Summary; References; Chapter 2 Bioinspired Surfaces; 2.1 Introduction; 2.2 Thermodynamics of Molecular Scale Surfaces; 2.3 Contact Angle and Surface Free Energy Measurements; 2.3.1 Volume Absorption Measurements by Sessile Drop Shape Analysis Methods , 2.3.2 Application and Control of Surface Energy and Contact Angle2.4 Bioinspired Non-wetting Surfaces; 2.5 Bioinspired Wetting Surfaces; 2.5.1 Phospholipids; 2.5.2 Mucins; 2.5.3 The Eye: A Biolubricant Wetting Example; 2.6 Adhesion at the Molecular Level: Synthetic and Natural; 2.6.1 Biological Adhesives; 2.6.2 Synthetic Reactive Molecular Adhesives; 2.6.3 Silicone or Polysiloxane; 2.7 Soft Lithography of Soft Surfaces; 2.8 Biomolecular Surfaces; 2.8.1 Proteins at Surfaces; 2.8.2 Biofouling and Bioinspired Antimicrobial Surfaces , 2.9 Creating and Characterising Biological and Bioinspired Surfaces Using Atomic Force Microscopy2.9.1 AFM Hardware and Set-up; 2.9.2 Surface Forces and Tip-Sample Interaction; 2.10 Function and Form in Bioinspired Surfaces on the Macroscale; References; Chapter 3 Energy Conversion and Storage; 3.1 Introduction; 3.2 Photovoltaics; 3.3 Thermal Energy Storage Systems and Phase Change Materials; 3.4 Batteries; 3.5 Supercapacitors; 3.6 Outlook; Acknowledgements; References; Chapter 4 Biomimetics of Structural Colours: Materials, Methods and Applications; 4.1 Introduction , 4.2 Natural Structural Colours4.2.1 Physical Origins of Natural Structural Colours; 4.2.2 Model Systems of Natural Structural Colours for Biomimicry; 4.3 Biomimicry of Natural Structural Colours; 4.3.1 Top-down Strategies; 4.3.2 Bottom-up Strategies; 4.3.3 Scaled-up Production; 4.4 Applications; 4.4.1 Responsive and Tuneable Structural Colours; 4.4.2 Surface Engineering with Structurally Coloured Systems; 4.4.3 Structural Colours in Art, Cosmetics, Paints and Textiles; 4.5 Conclusions; References; Chapter 5 Bioinspired Approaches to Bone; 5.1 Introduction

Additional Edition: Print version: ISBN 9781788011464

Language: English

Keywords: Electronic books. ; Electronic books.

URL: https://doi.org/10.1039/9781788015806

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