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Self-assembly of hierarchical magnetic nano- to microstructures: biogenic and biomimetic synthesis of magnetite chains
Antragsteller
Dr. Damien Faivre; Professor Dr. Dirk Schüler
Fachliche Zuordnung
Materialwissenschaft
Förderung
Förderung von 2009 bis 2013
Projektkennung
Deutsche Forschungsgemeinschaft (DFG) - Projektnummer 128306620
Magnetotactic bacteria form intracellular chains of magnetosomes, which display a hierarchically ordered nano- and microstructure over several levels, up to the magnetic control of coordinated alignment and motility of entire populations of cells. The bacterial magnetic structures are formed by biomineralization from membrane-enveloped, biomineralized magnetic nanocrystals, which in turn by self-assembly align into more complex structures. Bacterial magnetosome formation is under strict biological control, which is associated with unprecedented material properties. However, despite of considerable efforts by material sciences, the resulting complex magnetic structures have not been replicated yet by conventional technological approaches.In this project, we suggest a biomimetic approach for the synthesis of hierarchically structured magnetic nanomaterials, which is inspired by the bacterial system. After previous identification and characterization of molecular determinants and building blocks, we now aim to reconstitute in vitro the assembly of magnetic nanocrystals purified from bacteria. In particular, this will involve the bacterial proteins MamK and MamJ which are known to collectively form the cytoskeletal network controlling alignment of magnetosome chains in vivo. Next, biological constituents will be partially substituted and combined with novel material components, such as modified polymeric structures and biomimetic magnetic nanoparticles. Ultimately, we will apply the principles of biological assembly to design hierarchically ordered two- and three-dimensional nano- and microstructures with novel and tailored mechanical, physico-chemical, and magnetic material characteristics.
DFG-Verfahren
Schwerpunktprogramme