Jiuan Lv

Title: Innovator Jiuan Lv: Pioneering Microfluidic Technology in Shanghai

Introduction

Jiuan Lv is a notable inventor based in Shanghai, China, recognized for his innovative contributions to the field of microfluidics. With one patent to his name, Jiuan is advancing the capabilities of fluid manipulation at a microscopic scale, showcasing the potential of disrupting conventional methods through cutting-edge technology.

Latest Patents

Jiuan Lv's recent patent, titled "Microfluidic movement control method utilizing light," presents a groundbreaking approach to controlling fluid movement using light. This invention employs a microtubule actuator prepared from a light-induced deformed smart polymer material. The process involves creating asymmetrical deformation through an exciting beam, leading to capillary action that drives microfluid movement. Notably, this technology can propel microfluids of various polarities and compositions, enabling not just simple movement, but also the ability to produce complex three-dimensional movement trails. The potential applications of this patent extend to controllable microfluidic transport, micro-reaction systems, micro-mechanic systems, and integrated circuit laboratories, among others.

Career Highlights

Jiuan is affiliated with Fudan University, where he engages in research and development pertinent to microfluidic systems and materials science. His work is marked by his unique approach to integrating modern polymers with photonic control mechanisms, which opens new avenues for microfluidic technologies in both academic and industrial settings.

Collaborations

Throughout his career, Jiuan has collaborated with esteemed colleagues such as Yanlei Yu and Jia Wei. Together, they contribute to the dynamic field of microfluidics, combining their expertise to push the boundaries of conventional scientific applications and drive innovation.

Conclusion

Jiuan Lv’s work exemplifies how innovative thinking in microfluidic control can result in significant technological advancements. His contributions to the field underscore the importance of interdisciplinary collaboration and highlight the future potentials of smart materials in laboratory and industrial applications. As he continues to innovate at Fudan University, the implications of his research promise to enhance microfluidic devices, greatly benefiting various spheres of science and technology.