Company Filing History:
Years Active: 2005
Title: The Innovative Contributions of Zhu Qun
Introduction
Zhu Qun is a notable inventor based in Mountain View, California. He has made significant contributions to the field of microfluidics, particularly through his innovative patent that enhances the functionality of microfluidic devices. His work is instrumental in advancing chemical operations within these devices.
Latest Patents
Zhu Qun holds a patent for a microfluidic chip that features integrated electrodes. This microfluidic device is designed to conduct various chemical operations efficiently. The integrated components include electrodes for manipulating charged entities, heaters, electrochemical detectors, and sensors for temperature, pH, fluid flow, among other useful components. The device can be fabricated from a plastic substrate, such as a substantially saturated norbornene-based polymer. The integration of components is achieved by adhering an electrically conductive film to the substrate, which may consist of metal or electrically conducting ink. This film is applied through methods such as metal deposition or printing. Additionally, the patent discloses methods for reducing bubble formation during electrokinetic separation and techniques for heating materials within the microfluidic device.
Career Highlights
Zhu Qun is currently associated with Aclara Biosciences, Inc., where he continues to develop innovative solutions in the field of microfluidics. His expertise and contributions have positioned him as a valuable asset in his organization.
Collaborations
Zhu Qun has collaborated with notable colleagues, including Mingqi Zhao and Petr Vanysek. Their combined efforts contribute to the advancement of technology in their respective fields.
Conclusion
Zhu Qun's innovative work in microfluidics exemplifies the impact of modern inventions on chemical operations. His patent for a microfluidic chip with integrated electrodes showcases his commitment to advancing technology. His contributions are significant in the ongoing evolution of microfluidic devices.