Company Filing History:
Years Active: 2006
Title: **Innovative Contributions of Inventor Xiaoping Qiu**
Introduction
Xiaoping Qiu, a pioneering inventor based in Sugar Land, Texas, has made significant strides in the field of materials science with her innovative work. With a unique focus on non-aqueous suspensions, her contributions stand out in the realm of chemical engineering and applied research.
Latest Patents
Xiaoping holds a patent titled "Suspension of borates in non-aqueous solvents and use thereof." This invention involves a non-aqueous suspension comprising boron-containing particulates, a low molecular weight polyalkylene glycol, and a suspension stabilizer. Additionally, the patent outlines methods for crosslinking water-soluble polymers and fracturing subterranean formations, showcasing the dual applicability of her research in both materials chemistry and geological engineering.
Career Highlights
Xiaoping Qiu is currently employed at Benchmark Research & Technology, Inc., where she applies her expertise to enhance various scientific processes. Her background and technical proficiency enable her to tackle complex challenges within her field efficiently. Her singular patent reflects her commitment to advancing materials science and her innovative approach to problem-solving.
Collaborations
Throughout her career, Xiaoping has collaborated with notable professionals such as William Franklin Harris, Jr. and David N. Harry. These partnerships have likely contributed to the breadth of ideas and improvements within her inventions, reinforcing the importance of teamwork in scientific advancements.
Conclusion
In summary, Xiaoping Qiu represents a dynamic force in the innovation landscape with her specific contributions to non-aqueous suspensions and polymer technology. Her patent not only illustrates her inventive spirit but also highlights the applied nature of her work in addressing real-world issues within the materials science sector. As she continues her work at Benchmark Research & Technology, Inc., the impact of her contributions will undoubtedly resonate in future advancements.