XingHao Hu

Title: Innovations of XingHao Hu in Biomaterial Manipulation

Introduction

XingHao Hu is a notable inventor based in Daejeon, South Korea. He has made significant contributions to the field of biomaterials through his innovative patents. With a total of two patents to his name, Hu's work focuses on advanced manipulation techniques for biomaterials using magnetic forces.

Latest Patents

One of Hu's latest patents is titled "Transporting, trapping and escaping manipulation device for magnetic bead biomaterial comprising micro-magnetophoretic circuit." This device is designed to transport, trap, and escape a single biomaterial using a magnetic structure. It provides a method for controlling the movement and direction of the biomaterial, utilizing a soft magnetic microstructure. This innovation enhances precision and ease in manipulating biomaterials, making it particularly useful in fields such as magneto-resistive sensors and the categorization of single cells or biomolecules.

Another significant patent by Hu is the "Microfluidic chip for susceptibility of superparamagnetic nanoparticles of bead and droplet types and measuring method for susceptibility using the same." This invention relates to a microfluidic chip that measures the magnetic susceptibility of superparamagnetic nanoparticle droplets. The method allows for continuous and accurate measurement of magnetic susceptibility in a flowing fluid, showcasing Hu's expertise in microfluidic technology.

Career Highlights

XingHao Hu is affiliated with the Industry & Academic Cooperation at Chungnam National University. His work in this institution has allowed him to collaborate with other researchers and contribute to advancements in biomaterial manipulation.

Collaborations

Some of Hu's notable coworkers include CheolGi Kim and KunWoo Kim. Their collaborative efforts have furthered the research and development of innovative technologies in the field.

Conclusion

XingHao Hu's contributions to biomaterial manipulation through his patents demonstrate his innovative spirit and dedication to advancing technology. His work has the potential to significantly impact various scientific fields, particularly in the manipulation and categorization of biomaterials.