Dresden 2014 – scientific programme
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BP: Fachverband Biologische Physik
BP 42: Biotechnology and bioengineering
BP 42.3: Talk
Friday, April 4, 2014, 10:00–10:15, HÜL 386
Aerographite for biomedical applications — •Constanze Lamprecht1, Carsten Grabosch1, Arnim Schuchardt1, Ingo Paulowicz1, Matthias Mecklenburg2, Karl Schulte2, Rainer Adelung1, and Christine Selhuber-Unkel1 — 1Institute for Materials Science, University of Kiel, Kiel, Germany — 2Istitute of Polymers and Composites, Hamburg University of Technology, Hamburg, Germany
Aerographite is a novel carbon based material that exists as a seamless 3D network of interconnected nano- and microtubes. The material exhibits outstanding physical properties such as ultra-lightweight, excellent electrical conductivity, and mechanical robustness, which are shared by the related material of carbon nanotubes (CNTs). CNTs have found a multitude of possible applications in a variety of disciplines including biomedical and tissue engineering. Notably CNT substrates have been shown to promote cell attachment, growth, and differentiation. However, the natural scaffold of tissues, the extracellular matrix, is a 3D structure with nano- and microscale features such as interconnecting pores, ridges, and fibers. While these requirements pose a difficult challenge for CNT composites, Aerographite (AG) might present new bioengineering possibilities, as it naturally provides a stable porous 3D scaffold that offers accessibility and penetrability of surfaces. AG can be synthesized as a macroscopic self supportive 3D scaffold in a variety of micro- and nano-architectures tailored by the growth conditions. This structural flexibility may prove as competitive advantage of AG for biomedical applications.