Multiscale Fabrication of Functional Materials for Regenerative Medicine, 2011
Springer Theses Series

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Language: English

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Multiscale Fabrication of Functional Materials for Regenerative Medicine
Publication date:
92 p. · 15.5x23.5 cm · Paperback

Approximative price 105.49 €

In Print (Delivery period: 15 days).

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Multiscale patterning of functional materials for regenerative medicine (series: springer theses)
Publication date:
92 p. · 15.5x23.5 cm · Hardback
Regenerative medicine demands new concepts and fabrication tools to improve our common knowledge about cell-cell and cell-environment interactions. In this work, Michele Bianchi  shows that different kinds of signals, such as chemical, topographical, and electrical signals,  can be arranged in a highly-controlled way. Furthermore, Michele uses scale lengths ranging from several micrometers to a few nanometers, through the employment of unconventional fabrication techniques. For each signal, Michele chose properly designed materials and fabrication methods. The external signals are capable of controlling cell adhesion and growth, opening the way for a systematic investigation of the environmental features affecting cell behaviour.
Introduction.- Experimental Techniques.- Stable Non-Covalent Functionalization Of Teflon-AF (Chemical Control).- Multiscale Patterning Of TiO2 For Cell Growth Control (Topographical Control).- Control Of Neural Cell Adhesion On 3D-SWCNT (Electrical Control).- Lithographical Controlled Etching (Appendix).
Dr. Michele Bianchi
University of Bologna
CNR-Institute of Nanostructured Materials (ISMN)
m.bianchi@bo.ismn.cnr.it

Nominated by the University of Bologna for a Springer Theses Prize

These results inspire the exploitation of unconventional fabrication techniques

Contribution to our understanding of cell-cell and cell-environment interactions

Includes supplementary material: sn.pub/extras