Bioinspired Materials Science and Engineering

  • ID: 4457642
  • Book
  • 400 Pages
  • John Wiley and Sons Ltd
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An authoritative introduction to the science and engineering of bioinspired materials

Bioinspired Materials Science and Engineering offers a comprehensive view of the science and engineering of bioinspired materials and includes a discussion of biofabrication approaches and applications of bioinspired materials as they are fed back to nature in the guise of biomaterials. The authors also review some biological compounds and shows how they can be useful in the engineering of bioinspired materials.

With contributions from noted experts in the field, this comprehensive resource considers biofabrication, biomacromolecules, and biomaterials. The authors illustrate the bioinspiration process from materials design and conception to application of bioinspired materials. In addition, the text presents the multidisciplinary aspect of the concept, and contains a typical example of how knowledge is acquired from nature, and how in turn this information contributes to biological sciences, with an accent on biomedical applications. This important resource:

  • Offers an introduction to the science and engineering principles for the development of bioinspired materials
  • Includes a summary of recent developments on biotemplated formation of inorganic materials using natural templates
  • Illustrates the fabrication of 3D–tumor invasion models and their potential application in drug assessments
  • Explores electroactive hydrogels based on natural polymers
  • Contains information on turning mechanical properties of protein hydrogels for biomedical applications

Written for chemists, biologists, physicists, and engineers, Bioinspired Materials Science and Engineering contains an indispensible resource for an understanding of bioinspired materials science and engineering. 

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List of Contributors xiii

Foreword xvii

Preface xix

Introduction to Science and Engineering Principles for the Development of Bioinspired Materials 1
Muhammad Wajid Ullah, Zhijun Shi, Sehrish Manan, and Guang Yang

I.1 Bioinspiration 1

I.2 Bioinspired Materials 1

I.3 Biofabrication 2

I.4 Biofabrication Strategies 3

I.5 Part II Biomacromolecules 5

I.6 Part III Biomaterials 11

I.7 Scope of the Book 13

Acknowledgments 14

References 14

Part I Biofabrication 17

1 Biotemplating Principles 19
Cordt Zollfrank and Daniel Van Opdenbosch

1.1 Introduction 19

1.2 Mineralization in Nature 20

1.3 Petrified Wood in Construction and Technology 23

1.4 Structural Description and Emulation 24

1.5 Characteristic Parameters 28

1.6 Applications 34

1.7 Limitations and Challenges 38

1.8 Conclusion and Future Topics 42

Acknowledgments 42

Notes 42

References 43

2 Tubular Tissue Engineering Based on Microfluidics 53
Lixue Tang, Wenfu Zheng, and Xingyu Jiang

2.1 Introduction 53

2.2 Natural Tubular Structures 53

2.3 Microfluidics 54

2.4 Fabrication of Tubular Structures by Microfluidics 58

2.5 Conclusion 64

Acknowledgments 64

References 64

3 Construction of Three ]Dimensional Tissues with Capillary Networks by Coating of Nanometer ] or Micrometer ]Sized Film on Cell Surfaces 67
Michiya Matsusaki, Akihiro Nishiguchi, Chun –Yen Liu, and Mitsuru Akashi

3.1 Introduction 67

3.2 Fabrication of Nanometer – and Micrometer –Sized ECM Layers on Cell Surfaces 68

3.3 3D –Tissue with Various Thicknesses and Cell Densities 75

3.4 Fabrication of Vascularized 3D –Tissues and Their Applications 77

3.5 Conclusion 80

Acknowledgments 80

References 80

4 Three –dimensional Biofabrication on Nematic Ordered Cellulose Templates 83
Tetsuo Kondo

4.1 Introduction 83

4.2 What Is Nematic Ordered Cellulose (NOC)? 84

4.3 Exclusive Surface Properties of NOC and Its Unique Applications 89

4.4 Conclusion 100

References 101

5 Preparation and Application of Biomimetic Materials Inspired by Mussel Adhesive Proteins 103
Heng Shen, Zhenchao Qian, Ning Zhao, and Jian Xu

5.1 Introduction 103

5.2 Various Research Studies 104

5.3 Conclusion 116

References 116

6 Self –assembly of Polylactic Acid –based Amphiphilic Block Copolymers and Their Application in the Biomedical Field 119
Lin Xiao, Lixia Huang, Li Liu, and Guang Yang

6.1 Introduction 119

6.2 Micellar Structures from PLA –based Amphiphilic Block Copolymers 119

6.3 Hydrogels from PLA –based Amphiphilic Block Copolymers 125

6.4 Conclusion 127

Acknowledgments 127

References 127

Part II Biomacromolecules 131

7 Electroconductive Bioscaffolds for 2D and 3D Cell Culture 133
Zhijun Shi, Lin Mao, Muhammad Wajid Ullah, Sixiang Li, Li Wang, Sanming Hu, and Guang Yang

7.1 Introduction 133

7.2 Electrical Stimulation 133

7.3 Electroconductive Bioscaffolds 135

7.4 Conclusion 145

Acknowledgments 145

References 145

8 Starch and Plant Storage Polysaccharides 149
Francisco Vilaplana, Wei Zou, and Robert G. Gilbert

8.1 Starch and Other Seed Polysaccharides: Availability, Molecular Structure, and Heterogeneity 149

8.2 Effect of the Molecular Structure of Starch and Seed Polysaccharides on the Macroscopic Properties of Derived Carbohydrate –based Materials 154

8.3 Chemo –enzymatic Modification Routes for Starch and Seed Polysaccharides 160

8.4 Conclusion 161

References 162

9 Conformational Properties of Polysaccharide Derivatives 167
Ken Terao and Takahiro Sato

9.1 Introduction 167

9.2 Theoretical Backbone to Determine the Chain Conformation of Linear and Cyclic Polymers from Dilute Solution Properties 169

9.3 Chain Conformation of Linear Polysaccharides Carbamate Derivatives in Dilute Solution 171

9.4 Lyotropic Liquid Crystallinity of Polysaccharide Carbamate Derivatives 177

9.5 Cyclic Amylose Carbamate Derivatives: An Application to Rigid Cyclic Polymers 178

9.6 Conclusion 180

Appendix: Wormlike Chain Parameters for Polysaccharide Carbamate Derivatives 181

References 182

10 Silk Proteins: A Natural Resource for Biomaterials 185
Lallepak Lamboni, Tiatou Souho, Amarachi Rosemary Osi, and Guang Yang

10.1 Introduction 185

10.2 Bio –synthesis of Silk Proteins 186

10.3 Extraction of Silk Proteins 188

10.4 Structure and Physical Properties of Silk Proteins 189

10.5 Properties of Silk Proteins in Biomedical Applications 190

10.6 Processing Silk Fibroin for the Preparation of Biomaterials 192

10.7 Processing Silk Sericin for Biomaterials Applications 194

10.8 Conclusion 194

Acknowledgments 195

Abbreviations 195

References 195

11 Polypeptides Synthesized by Ring –opening Polymerization of N –Carboxyanhydrides: Preparation, Assembly, and Applications 201
Yuan Yao, Yongfeng Zhou, and Deyue Yan

11.1 Introduction 201

11.2 Living Polymerization of NCAs 201

11.3 Synthesis of Traditional Copolypeptides and Hybrids 204

11.4 New Monomers and Side –Chain Functionalized Polypeptides 208

11.5 The Self –assembly of Polypeptides 212

11.6 Novel Bio –related Applications of Polypeptides 216

11.7 Conclusion 219

References 219

12 Preparation of Gradient Polymeric Structures and Their Biological Applications 225
Tao Du, Feng Zhou, and Shutao Wang

12.1 Introduction 225

12.2 Gradient Polymeric Structures 225

12.3 Gradient Polymeric Structures Regulated Cell Behavior 241

12.4 Conclusion 247

References 247

Part III Biomaterials 251

13 Bioinspired Materials and Structures: A Case Study Based on Selected Examples 253
Tom Masselter, Georg Bold, Marc Thielen, Olga Speck, and Thomas Speck

13.1 Introduction 253

13.2 Fiber –reinforced Structures Inspired by Unbranched and Branched Plant Stems 253

13.3 Pomelo Peel as Inspiration for Biomimetic Impact Protectors 255

13.4 Self –repair in Technical Materials Inspired by Plants Solutions 258

13.5 Elastic Architecture: Lessons Learnt from Plant Movements 261

13.6 Conclusions 264

Acknowledgments 264

References 264

14 Thermal – and Photo –deformable Liquid Crystal Polymers and Bioinspired Movements 267
Yuyun Liu, Jiu –an Lv, and Yanlei Yu

14.1 Introduction 267

14.2 Thermal –responsive CLCPs 267

14.3 Photothermal –responsive CLCPs 276

14.4 Light –responsive CLCPs 278

14.4 Conclusion 290

References 291

15 Tuning Mechanical Properties of Protein Hydrogels: Inspirations from Nature and Lessons from Synthetic Polymers 295
Xiao –Wei Wang, Dong Liu, Guang –Zhong Yin, and Wen –Bin Zhang

15.1 Introduction 295

15.2 What Are Different about Proteins? 296

15.3 Protein Cross –linking 298

15.4 Strategies for Mechanical Reinforcement 300

15.5 Conclusion 306

References 307

16 Dendritic Polymer Micelles for Drug Delivery 311
Mosa Alsehli and Mario Gauthier

16.1 Introduction 311

16.2 Dendrimers 312

16.3 Hyperbranched Polymers 319

16.4 Dendrigraft Polymers 323

16.5 Conclusion 333

References 334

17 Bone –inspired Biomaterials 337
Frank A. Müller

17.1 Introduction 337

17.2 Bone 337

17.3 Bone – like Materials 340

17.4 Bone –like Scaffolds 344

17.5 Conclusion 349

References 349

18 Research Progress in Biomimetic Materials for Human Dental Caries Restoration 351
Yazi Wang, Fengwei Liu, Eric Habib, Ruili Wang, Xiaoze Jiang, X.X. Zhu, and Meifang Zhu

18.1 Introduction 351

18.2 Tooth Structure 351

18.3 The Formation Mechanism of Dental Caries 352

18.4 HA –filled Biomimetic Resin Composites 352

18.5 Biomimetic Synthesis of Enamel Microstructure 356

Acknowledgments 362

References 362

Index 365

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Guang Yang
Lin Xiao
Lallepak Lamboni
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