Tim Erichlandwehr, M. Sc.

Photo: Manuel Müller
PhD Student
Nano-Opto-Fluidics
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Motor protein driven cargo transport, Acto-myosin motility assays on various materials (Ormo, glass, silicon, Al2O3), controlled gas-phase silanization, nanoimprinting of two- and threedimensional topographies.
Currently pursuing his PhD, focuses on the application of motor protein-driven cargo transport, employing Acto-myosin motility assays across diverse substrates such as Polymers (Ormostamp), glass (Silicondioxide), silicon, and Al2O3. His research encompasses advanced techniques like controlled gas-phase silanization to control surface functionalization, and innovative nanoimprinting methods to create precise two- and three-dimensional topographies for applications in nanofluidics. Tim’s work combines cutting-edge material science with molecular biology to use cellular transport machinery for applications in nanobiotechnonolgy.