Mathias Trau, located in Balmoral, Australia, is a renowned inventor with a significant body of work reflected in his six patents. His innovative approach is particularly focused on the field of biomimetic materials, where he integrates natural processes into the development of advanced inorganic structures.

Latest Patents

One of Mathias Trau's latest patents is titled "Biomimetic pathways for assembling inorganic thin films and oriented mesoscopic silicate patterns through guided growth." This groundbreaking process prepares surfactant-polycrystalline inorganic nanostructured materials with meticulously designed microscopic patterns. The method includes several steps: forming a polycrystalline inorganic substrate with a flat surface and contacting it with a surface possessing a predetermined microscopic pattern. An acidified aqueous reacting solution is introduced at the edge of this surface, allowing capillary action to draw it into the microscopic pattern.

The reacting solution contains an effective amount of a silica source and a surfactant, resulting in the formation of a mesoscopic silica film when it interacts with the substrate surface. Furthermore, an electric field is applied tangentially to facilitate electro-osmotic fluid motion, thereby enhancing the rates of fossilization through localized Joule heating. This innovative approach highlights Trau's commitment to advancing inorganic material science.

Career Highlights

Mathias Trau works at Princeton University, where he continues to push the boundaries of scientific knowledge through his research and patented inventions. His work not only contributes to the academic community but also has significant implications for various industrial applications.

Collaborations

Throughout his career, Trau has collaborated with notable colleagues, including Ilhan A. Aksay and Srinivas Manne. These partnerships have fostered a dynamic environment for innovation, leading to the development of advanced materials and techniques in his field.

Conclusion

Mathias Trau's contributions to the field of biomimetic materials through his innovative patents illustrate the importance of integrating natural mechanisms into modern science and technology. His dedication to research and collaboration continues to inspire future advancements in inorganic nanostructured materials. His work underscores the dynamic relationship between academia and real-world applications, making significant strides toward innovative solutions in material science.

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