Abstract
Self-assembly has become a useful way of constructing biomaterials for a variety of applications ranging from cell culture to tissue engineering. Attractive features of self-assembled biomaterials include chemical definition, modularity, stimulus-sensitivity, and the ability to produce complex supramolecular objects from comparatively simple precursors. These aspects also make self-assembly an effective way of bridging the practicality of synthetic materials with the molecular and structural complexity of biologically derived materials. In this chapter, self-assembling strategies are summarized, with particular emphasis on materials employing peptides and proteins as the essential oligomerizing components. Two-dimensional self-assemblies, primarily self-assembled monolayers, are also overviewed. Immune responses to supramolecular biomaterials, advantages that arise from self-assembling approaches, and examples of recent in vivo applications of these materials are additionally discussed.
| Original language | English (US) |
|---|---|
| Title of host publication | Biologically Inspired and Biomolecular Materials |
| Publisher | Elsevier |
| Pages | 77-94 |
| Number of pages | 18 |
| Volume | 2 |
| ISBN (Print) | 9780080552941 |
| State | Published - Oct 1 2011 |
| Externally published | Yes |
Keywords
- Amphiphiles
- Biomimetic
- Coiled coil
- Collagen
- Fibrillar
- Hydrogels
- Immunogencity
- Peptide-polymer
- Regenerative medicine
- Self-assembled monolayers (SAMs)
- Self-assembly
- Tissue engineering
- sheet
ASJC Scopus subject areas
- General Dentistry
- General Medicine