Jonathan H Tao

Title: Innovations of Jonathan H Tao

Introduction

Jonathan H Tao is an accomplished inventor based in Oceanside, CA (US). He is known for his significant contributions to the field of materials science, particularly in the development of rare earth-activated aluminum nitride powders. His innovative approach has the potential to enhance various applications in electronics and optoelectronics.

Latest Patents

Jonathan H Tao holds a patent for "Rare earth-activated aluminum nitride powders and method of making." This patent describes a solution-based approach to create a mixed hydroxide of aluminum and a rare earth metal. The process involves converting the mixed hydroxide into an ammonium metal fluoride, specifically a rare earth-substituted ammonium aluminum hexafluoride ((NH)AlREF). The final product, rare earth-activated aluminum nitride, is formed through ammonolysis of the ammonium metal fluoride at high temperatures. This method effectively avoids oxygen sources during the final ammonolysis step, which is a common cause of defects in nitride powder synthesis. Additionally, the aluminum nitride produced from a mixed hydroxide co-precipitate ensures a homogeneous distribution of dopants within each particle. Jonathan H Tao has 1 patent to his name.

Career Highlights

Throughout his career, Jonathan has worked with notable organizations, including Osram Sylvania Inc. and the University of California. His experience in these institutions has allowed him to collaborate with leading experts in the field and contribute to groundbreaking research.

Collaborations

Some of Jonathan's notable coworkers include Bing Han and Madis Raukas. Their collaborative efforts have further advanced the research and development of innovative materials.

Conclusion

Jonathan H Tao's work in the field of rare earth-activated aluminum nitride powders showcases his innovative spirit and dedication to advancing materials science. His contributions have the potential to impact various technological applications significantly.