Protein-based Nanocomposites for Tissue Engineering details the design, development, efficacy and tissue engineering applications of a range of protein-based nanocomposite materials.Protein-based nanocomposites offer advantageous properties in that they are biodegradable, biocompatible, nonantigenic, highly stable and possess strong binding capacity. These unique properties make protein-based nanocomposite carriers promising candidates for controlled cell delivery in tissue engineering. This book covers a selection of protein types in their nanocomposite form, from albumin and keratin, to collagen and silk. Each protein nanocomposite is described in detail, exploring their application in cell delivery and tissue engineering. The design, development, properties, and molecular mechanism of protein-based nanocomposites is thoroughly discussed, before going on to analyze the advantages and limitations of these useful materials.
Protein-based Nanocomposites for Tissue Engineering helps readers explore biocompatible and naturally derived material options for tissue engineering applications and would be of use to academics and researchers in the fields of materials science, biomedical engineering, regenerative medicine and nanotechnology.
- Provides an overview of protein-based nanocomposites and their unique properties, including biocompatibility and toxicity
- Covers recent advances in the design and development of protein nanocomposites, helping the reader anticipate challenges and improve efficiency of development
- Details a range of protein types in their nanocomposite form, including key and readily available proteins such as fibrin, soy, collagen and silk
1.Protein-based nanocomposites: An overview
2.Types, stability, biocompatibility and toxicity of protein-based nanocomposites
3.Advantages and challenges of protein-based nanocomposites
4.Recent advances in design and development of protein nanocomposites
5.Efficiency and robustness of protein-based nanocomposites in regenerative medicines
6.Biomedical applications of protein-based nanocomposites
7.Molecular mechanism of protein-based nanocomposites in cells, uptake by cells and intracellular release
8.Albumin-based nanocomposites for tissue engineering
9.Silk fibroin-based nanocomposites for tissue engineering
10.Collagen-based nanocomposites for tissue engineering
11.Keratin-based nanocomposites for tissue engineering
12.Zein-based nanocomposites for tissue engineering
13.Soy protein-based nanocomposites for tissue engineering
14.Collagen and gelatin-based hydrogels for tissue engineering
15.Fibrin-based hydrogels for tissue engineering
16.Elastin-based hydrogels for tissue engineering
17.Silk-based hydrogels for tissue engineering
Dr. Showkat Ahmad Bhawani is presently working as an Associate Professor at Department of chemistry, Faculty of Resource Science and Technology, UNIMAS Malaysia. In addition to this, he has a teaching experience of two years from King Abdul Aziz University- North Jeddah and a post-doctoral experience of Three years from the Universiti Sains Malaysia, Malaysia. He has received his M Sc. in Analytical Chemistry and Ph D. in Applied Analytical Chemistry from Aligarh Muslim University, Aligarh, India. He is working on the synthesis of molecular Imprinting polymers for the removal/extraction of dyes, fungicides and various natural products from environmental and biological samples. In addition to this, he is also working on the development of new test methods and determining standard conditions for analysis (Separation, Isolation and Determination) of various analytes from environmental and biological samples. He is involved in the analysis of samples like: Surfactants, Amino acids, Drugs, Vitamins, Sugars and Metal ions. He has published 1 book and 8 book chapters and he has published more than 30 papers in various journals. He is life member of Asian polymer association and editorial board member of several journals. His research focuses on the process-property-application correlation of nanocellulose-based assembled dimensional structures, as well as the fabrication of functionally and structurally sound dimensional architecture for predefined applications. He has presented widely on his research, publishing ten book chapters, and over 30 research papers. He serves as a consultant both in academia and for industry. Dr. Mohammad Jawaid is currently affiliated with the Department of Chemical and Petroleum Engineering at United Arab Emirates University. Previously he was a senior fellow (professor) in the Laboratory of Biocomposites Technology at the Institute of Tropical Forestry and Forest Products (INTROP), Universiti Putra Malaysia. He is an eminent scientist with more than twenty years of teaching, and research experience in composite materials. His research interests include hybrid reinforced/filled polymer composites, and advanced materials such as graphene/
nanoclay/fire retardant, lignocellulosic reinforced/filled polymer composites, and the modification and treatment of lignocellulosic fibres and solid wood, and nanocomposites and nanocellulose fibres.
