Company Filing History:
Years Active: 2009
Title: Jui C Lin: Innovator in Nanoscale Particle Technology
Introduction
Jui C Lin is a notable inventor based in Fairfield, CA, who has made significant contributions to the field of nanoscale particle technology. With a focus on methods and apparatus for producing nanoscale particles, Lin's work has the potential to impact various applications, particularly in the medical field.
Latest Patents
Lin holds a patent for "Methods and apparatus for producing nanoscale particles." This innovative patent describes liquid nanoscale particle precursor materials that include at least one high volatility carrier and a second component. The nanoscale particle generating device operates by passing a liquid precursor material through a heated flow passage, converting the carrier into vapor and generating nanoscale particles from the second component. The resulting nanoscale particles can consist essentially of dry, solid particles and can be incorporated into handheld inhalers for targeted delivery to specific lung areas. Additionally, the technology allows for the production of composite controlled release particles of micron or nanoscale size.
Career Highlights
Jui C Lin is currently employed at Philip Morris USA Inc., where he continues to develop and refine his innovative technologies. His work in the field of nanoscale particles has positioned him as a key figure in advancing methods that could enhance drug delivery systems and other applications.
Collaborations
Lin collaborates with talented individuals such as Tung Tien Nguyen and Nina Brown, who contribute to the innovative environment at Philip Morris USA Inc. Their combined expertise fosters a culture of creativity and advancement in the field of nanoscale technology.
Conclusion
Jui C Lin's contributions to nanoscale particle technology exemplify the potential of innovation in improving medical applications. His patent and ongoing work at Philip Morris USA Inc. highlight the importance of research and development in creating effective solutions for targeted drug delivery.