Company Filing History:
Years Active: 2010
Title: John A. Meier: Innovator in Microfluidic Technology
Introduction
John A. Meier is a notable inventor based in Chickasha, OK (US). He has made significant contributions to the field of microfluidics, particularly through his innovative patent that addresses the generation of large pressures on microfluidic chips. His work has the potential to enhance the functionality of various micro-sized devices.
Latest Patents
John A. Meier holds a patent titled "Method and apparatus for generating large pressures on a microfluidic chip." This invention relates to a method and apparatus designed to generate pressure suitable for powering micro-sized devices. The invention typically comprises a gas generation chamber equipped with an activation element and filled with a gas-containing liquid. When the activation element is powered, gas within the liquid is released. A series of pressure distribution channels then deliver the gas to various peripheral microfluidic devices. The design includes one-way valves and multi-chambered configurations, allowing for a wide range of pressures to be generated from a single pressure generation device. By manipulating the scale of this device, applications can be developed for lab-on-chip, handheld, and benchtop systems, providing substantial user control.
Career Highlights
John A. Meier is affiliated with the California Institute of Technology, where he continues to advance his research in microfluidic technology. His work has garnered attention for its innovative approach to pressure generation, which is crucial for the operation of micro-sized devices.
Collaborations
John has collaborated with notable colleagues such as Derek Rinderknecht and Morteza Gharib. Their combined expertise contributes to the advancement of research in microfluidics and related fields.
Conclusion
John A. Meier's contributions to microfluidic technology through his innovative patent demonstrate his commitment to advancing the field. His work not only enhances the functionality of micro-sized devices but also opens new avenues for research and application.