| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 32129 | Nano Today | 2014 | 21 Pages |
•Natural extracellular matrix structure motivates the use of nanofibrous materials.•Techniques for creating nanofibrous scaffolds are discussed in detail.•Emphasis is placed on electrospinning, phase separation, and self-assembly.•Examples are provided of recent advances in applications of nanofibrous scaffolds.
SummaryIncreased understanding of the nanoscale structural features of the extracellular matrix (ECM) in directing cell and tissue function has led to the development of materials with nanofibrous architectures to mimic the biophysical cues of natural ECM. This review briefly discusses the importance of structural features within ECM and then examines the techniques that researchers have developed to recreate these structural features in materials. In particular, techniques including electrospinning, phase separation, and self-assembly are discussed in detail for their ability to fabricate nanofibrous scaffolds with various chemical and structural features. Advances in biomedical applications of nanofibrous scaffolds are highlighted with a particular focus on more recent studies to illustrate the current state of the field.
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