Company Filing History:
Years Active: 2004-2006
Title: The Innovative Mind of Dieter Trau in Hong Kong
Introduction
Dieter Trau is an accomplished inventor based in Hong Kong, China. With a focus on the encapsulation of solid particles, Trau has made significant contributions to the field of materials science through his innovative patented processes. He has been awarded two patents, showcasing his expertise and creativity in experimental design.
Latest Patents
Dieter Trau's latest patents include groundbreaking work on the templating of solid particles by polymer multilayers. This process involves treating uncharged crystalline solid particle material with amphiphilic substances and subsequently coating it with either a layer of charged polyelectrolyte or a multilayer comprising alternately charged polyelectrolytes. Another significant invention by Trau is the encapsulation of crystals via multilayer coatings, which describes a novel method for preparing coated crystals by applying alternating layers of oppositely charged polyelectrolytes and/or nanoparticles to crystal template particles.
Career Highlights
Dieter Trau is associated with the Max Planck Society for the Advancement of Science, a prestigious research institution known for its cutting-edge contributions to various scientific disciplines. His career is marked by a dedication to advancing the understanding of particle encapsulation, which has vast applications in fields such as drug delivery and nanotechnology.
Collaborations
Throughout his career, Trau has collaborated with esteemed colleagues, including Frank Caruso and Reinhard Renneberg. These partnerships have allowed him to expand his research and develop innovative solutions to complex scientific challenges.
Conclusion
Dieter Trau stands out as a prominent figure in the realm of inventions related to particle encapsulation. His work not only enhances scientific knowledge but also opens new avenues for practical applications in various industries. His contributions will undoubtedly have a lasting impact on materials science and related fields.