Biological Materials Science
Biological Materials, Bioinspired Materials, and Biomaterials

Takes a materials science approach, correlating structure-property relationships with function across a broad range of biological materials.

Marc André Meyers (Author), Po-Yu Chen (Author)

9781107010451, Cambridge University Press

Hardback, published 31 July 2014

644 pages, 472 b/w illus. 10 tables 150 exercises
25.3 x 19.5 x 3.4 cm, 1.54 kg

'The union of the physical and biological sciences is in many respects one of the most exciting yet challenging aspects of scientific endeavor today. Nowhere is this more in evidence than in the area of biological materials science and engineering where many materials scientists struggle with the complex puzzle of biological form and function while biologists in turn have to deal with the invariably highly quantitative nature of the physical sciences and engineering. With this book, Meyers and Chen have delivered a true tour de force which takes the reader in clear and precise text from cells to virus-produced Li-ion batteries. This book is a must read for undergraduates, graduates and researchers alike in the rapidly expanding fields of biological, bioinspired and biomaterials science.' Robert Ritchie, Lawrence Berkeley National Laboratory

Taking a unique materials science approach, this text introduces students to the basic concepts and applications of materials and biomedical engineering and prepares them for the challenges of the new interdisciplinary field of biomaterials science. Split into three sections - Basic Biology Principles, Biological Materials, and Bioinspired Materials and Biomimetics - it presents biological materials along with the structural and functional classification of biopolymers, bioelastomers, foams, and ceramic composites. More traditional biomimetic designs such as Velcro are then discussed in conjunction with new developments that mimic the structure of biological materials at the molecular level, mixing nanoscale with biomolecular designs. Bioinspired design of materials and structures is also covered. Focused presentations of biomaterials are presented throughout the text in succinct boxes, emphasising biomedical applications, whilst the basic principles of biology are explained, so no prior knowledge is required. The topics are supported by approximately 500 illustrations, solved problems, and end-of-chapter exercises.

1. Evolution of materials science and engineering: from natural to bioinspired materials
Part I. Basic Biology Principles: 2. Self assembly, hierarchy, and evolution
3. Basic building blocks
4. Cells
5. Biomineralization
Part II. Biological Materials: 6. Silicate and calcium carbonate-based composites
7. Calcium phosphate-based composites
8. Biological polymers and polymer composites
9. Biological elastomers
10. Biological foams (porous solids)
11. Functional biological materials
Part III. Bioinspired Materials and Biomimetics: 12. Bioinspired materials
13. Molecular-based biomimetics.

Subject Areas: Materials science [TGM], Mechanical engineering [TGB], Mechanical engineering & materials [TG], Biomedical engineering [MQW]