Company Filing History:
Years Active: 2007
Title: Shoushan Gao: Innovator in Nanotechnology
Introduction
Shoushan Gao is a prominent inventor based in Liaoning, China. He has made significant contributions to the field of nanotechnology, particularly in the production of nano-powders. With a total of 2 patents, his work has implications for various industries, including materials science and pharmaceuticals.
Latest Patents
Gao's latest patents include a "Process for producing nano-powders and powders of nano-particle loose aggregate." This invention outlines a method that involves providing at least two reactant solutions capable of rapidly reacting to form deposits. The process includes supplying these solutions into a mixing and reaction precipitator, where continuous mixing, reaction, and precipitation occur. The method aims to produce nano-powders with adjustable particle sizes and good homogeneity.
Another notable patent is the "Process for producing nanometer grade powders." This invention also involves providing reactant solutions that can rapidly react to form precipitate. The process is designed to produce nanometer powders with high production yield, simplicity, and low energy consumption. It can be applied to various materials, including metals, oxides, and organic compounds.
Career Highlights
Shoushan Gao is affiliated with Anshan University of Science and Technology, where he continues to advance his research in nanotechnology. His innovative approaches have garnered attention in the scientific community, contributing to the development of efficient production methods for nanomaterials.
Collaborations
Gao has collaborated with notable colleagues, including Yingyan Zhou and Kaiming Wang. These partnerships have facilitated the exchange of ideas and expertise, further enhancing the impact of their research in the field.
Conclusion
Shoushan Gao's contributions to nanotechnology through his innovative patents and collaborations highlight his role as a key figure in advancing this important field. His work not only enhances our understanding of nanomaterials but also paves the way for future innovations.