Company Filing History:
Years Active: 2011
Title: Innovations in Composite Materials: The Work of Minghui Liang
Introduction
Minghui Liang, an esteemed inventor based in Beijing, China, has made notable contributions in the field of composite materials. With a patent to his name, he focuses on advancing the preparation and application of innovative materials that exhibit significant industrial potential.
Latest Patents
Liang's notable patent is titled "Composite material composed of nanoparticles of transition metal and magnetic ferric oxide, a method of preparing the same, and uses of the same." This invention details a composite material fundamentally composed of nanoparticles of transition metals, or their alloys, alongside nanoparticles of magnetic ferric oxide. The specification reveals that the size of the transition metal nanoparticles ranges from 0.7 to 5 nm, while the magnetic ferric oxide nanoparticles measure between 5 to 50 nm. Remarkably, this composite material demonstrates high reactivity and exceptional selectivity for the industrial reaction of hydrogenating halogeno-nitro-aromatics to yield halogeno-arylamines. Importantly, it addresses the challenges of hydrogenolysis-dehalogenation that often arise in such preparations, showcasing its invaluable industrial applicability.
Career Highlights
Minghui Liang serves at Peking University, a prestigious institution recognized for its commitment to research and innovation. His work at this university has been pivotal in fostering advancements in composite materials.
Collaborations
Throughout his career, Liang has collaborated with distinguished coworkers, including Yuan Wang and Junling Zhang. These partnerships contribute to a dynamic research environment that supports the acceleration of innovative solutions in the field of materials science.
Conclusion
Minghui Liang stands as a prominent figure in the realm of composite materials, with a patented invention that not only signifies a significant advancement but also promises impactful industrial applications. His ongoing work at Peking University, in collaboration with talented peers, continues to pave the way for future innovation in this field.