Cha-Min Tang

Title: Innovating Fluorescence Illumination: The Contributions of Cha-Min Tang

Introduction

Cha-Min Tang is an accomplished inventor based in Radnor, Pennsylvania, recognized for her significant contributions to semiconductor technology. With one patent to her name, she has focused her efforts on enhancing fluorescence microscopy through innovative lighting solutions.

Latest Patents

Cha-Min Tang's noteworthy patent, titled "Semiconductor Based Excitation Illuminator for Fluorescence," presents an advanced apparatus designed for exciting fluorescent or phosphorescent molecules applied to specimens in microscopy. This invention features a semiconductor light source, preferably a light-emitting diode or superluminescent diode, capable of emitting light within a preselected wavelength band corresponding to the excitation wavelength of the molecule. The system includes an electronic controller for regulating the light output intensity and an optical system that transforms the output light into an excitation beam. The invention is noted for its long lifespan and cost-effectiveness, enabling electronic intensity modulation without the necessity for mechanical shutters.

Career Highlights

Cha-Min Tang is currently affiliated with Cytotelesis Inc., where she continues to work at the intersection of technology and biology. Her expertise in optical systems and semiconductor devices has been pivotal in driving innovations within the company.

Collaborations

At Cytotelesis Inc., Cha-Min collaborates with notable colleagues, including Lothar Lilge and Peter S Pennefather. Their collective knowledge and experience contribute to advancing the company’s research and development goals.

Conclusion

Cha-Min Tang has made significant strides in the field of fluorescence microscopy, particularly through her patented invention focused on semiconductor-based excitation illuminators. Her work not only enhances scientific research capabilities but also exemplifies the innovative spirit that drives technological advancement in microscopy.