Cordula Reuther

TU Dresden

Cordula Reuther's research has significantly advanced the field of biocomputation, exploring novel strategies for network-based computations and their applications in functional nanodevices. By developing innovative methods for motor-driven microtubule multiplication and manipulation, Reuther has enabled the creation of molecular motor-driven filament transport systems with precise control over 3D polymeric micro-junctions. This work has far-reaching implications for the development of biotemplated nanopatterning techniques, silicon nanowire growth, and the design of functional nanodevices that can harness biomolecular transport systems. Reuther's research has the potential to transform various fields, from materials science to biomedical engineering, with its cutting-edge approaches to molecular motor technology.