Location History:
- West Lafayette, IN (US) (2015 - 2023)
- Saint Anthony, MN (US) (2023)
Company Filing History:
Years Active: 2015-2025
Title: Innovations and Contributions of Inventor Xin Li
Introduction
Xin Li is a prominent inventor based in West Lafayette, Indiana, known for her significant contributions to the field of technology and engineering. With a total of 11 patents to her name, she has made remarkable advancements in various applications, particularly in mass spectrometry and magnetic resonance imaging.
Latest Patents
One of her latest patents is titled "Synchronization of ion generation with cycling of a discontinuous atmospheric interface." This invention relates to methods and devices that synchronize ion generation with the cycling of a discontinuous atmospheric interface. The system includes a mass spectrometry probe that generates sample ions, a discontinuous atmospheric interface, and a mass analyzer, ensuring that ion formation is synchronized with the cycling of the interface.
Another notable patent is "Hybrid spatial and circuit optimization for targeted performance of MRI coils." This method involves operating a multi-coil magnetic resonance imaging system, where a controller performs simulations using a predefined tissue model. The process includes determining output values of a variable of interest associated with the operation of multiple coils, comparing these values to target values, and optimizing circuit values to achieve the desired performance.
Career Highlights
Xin Li is affiliated with the Purdue Research Foundation, where she continues to innovate and contribute to her field. Her work has garnered attention for its practical applications and potential to enhance existing technologies.
Collaborations
Xin has collaborated with notable colleagues, including Robert Graham Cooks and Guangtao Li, who have also made significant contributions to their respective fields.
Conclusion
Xin Li's innovative spirit and dedication to her work have led to numerous patents that advance technology in mass spectrometry and MRI systems. Her contributions continue to impact the scientific community and pave the way for future innovations.