2011
Part 1 Production, Modification and Biomedical Applications of Novel Materials
1 Biomaterials and Sol–Gel Process: A Methodology for the Preparation of Functional Materials
2. Development of DNA Based Active Macro–Materials for Biology and Medicine: A Review
3 Porous Apatite Coating on Various Titanium Metallic Materials via Low Temperature Processing
4 Fabrication and Antibacterial Performance of Graded Nano–Composite Biomaterials
5 Self–Assembled Peptide Nanostructures for Biomedical Applications: Advantages and Challenges
6 Preparation of Nanocellulose with Cation–Exchange Resin Catalysed Hydrolysis
7 The Role of Biodegradable Engineered Scaffold in Tissue Engineering
1 Biomaterials and Sol–Gel Process: A Methodology for the Preparation of Functional Materials
2. Development of DNA Based Active Macro–Materials for Biology and Medicine: A Review
3 Porous Apatite Coating on Various Titanium Metallic Materials via Low Temperature Processing
4 Fabrication and Antibacterial Performance of Graded Nano–Composite Biomaterials
5 Self–Assembled Peptide Nanostructures for Biomedical Applications: Advantages and Challenges
6 Preparation of Nanocellulose with Cation–Exchange Resin Catalysed Hydrolysis
7 The Role of Biodegradable Engineered Scaffold in Tissue Engineering