Company Filing History:
Years Active: 2023
Title: Ting-Chou Wei: Innovator in Optical Systems
Introduction
Ting-Chou Wei is a prominent inventor based in Taoyuan, Taiwan, known for his groundbreaking contributions to optical systems particularly in the field of microfluidics. With a keen focus on innovation, he has developed a portable ring-type fluorescence optical system that enhances the observation of microfluidic channels. This invention reflects his commitment to advancing technology in biomedical applications and scientific research.
Latest Patents
Ting-Chou Wei holds a patent for a "Portable ring-type fluorescence optical system for observing microfluidic channel and operating method thereof." This innovative system incorporates a photographic chip, polarizers, and a ring-type fluorescent light source carefully arranged to observe biological samples on microfluidic chips effectively. His patent showcases a sophisticated design that uses a non-zero angle between polarizers to improve the clarity of fluorescent images while mitigating interference from undesired light sources.
Career Highlights
Currently, Ting-Chou Wei is affiliated with National Tsing Hua University, where he contributes to research and development in optical technologies. His work in creating advanced imaging systems has positioned him as a key figure in his field, impacting research methodologies and applications in microfluidics.
Collaborations
Wei has collaborated with notable colleagues in his research endeavors, including Sung-Yang Wei and Long Hsu. These partnerships enhance the innovation pipeline and foster a collaborative environment for creating advanced optical solutions in scientific research.
Conclusion
Ting-Chou Wei's contributions to the field of optical systems and microfluidics highlight his role as a forward-thinking inventor. His patent not only exemplifies innovative thought but also provides practical tools for researchers. As he continues his work at National Tsing Hua University, his future contributions are anticipated to further influence advancements in microfluidic technology.