Yao-Tung Wu

Title: Yao-Tung Wu: Innovator in Bioparticle Control Technology

Introduction

Yao-Tung Wu, based in Yung Kung, Taiwan, is a recognized inventor known for his innovative contributions to bioparticle control technology. With a focus on improving methods for capturing and releasing bioparticles, Wu's work is making a significant impact in the field of biomedical engineering.

Latest Patents

Wu holds a patent for a groundbreaking innovation titled "Chip with tri-layer electrode and micro-cavity arrays for control of bioparticle and manufacturing method thereof." This invention introduces a specialized chip that incorporates tri-layer electrodes and micro-cavity arrays designed to manage bioparticles effectively. By utilizing dielectrophoresis (DEP) forces generated by the electrodes, the chip can capture and release bioparticles into and from preset cavities. The design features an upper layer body, a middle layer body, and a lower layer body, each equipped with electrodes and micro flow chambers. The application of an AC electric field enables the control of bioparticle manipulation at both single-cell and cell population levels.

Career Highlights

Yao-Tung Wu is affiliated with the Southern Taiwan University of Technology, where he has devoted his research to advancing technologies in bioparticle management. His invention stands as a testament to his dedication to improving biomedical applications through innovative engineering solutions.

Collaborations

Wu collaborates with esteemed colleagues, including Cheng-Hsin Chuang and You-Ming Hsu. Their combined expertise fosters an enriching research environment, contributing to the advancement of technology in their field.

Conclusion

Yao-Tung Wu exemplifies the spirit of innovation through his contributions to bioparticle control technology. His patent not only showcases his inventive capabilities but also opens new possibilities for future biomedical applications. As research continues to evolve, Wu's work will undoubtedly play a pivotal role in shaping the future of bioparticle manipulation and related technologies.