Company Filing History:
Years Active: 2009-2024
Title: Innovations by Hua-Shuang Kong in Crystalline Material Processing
Introduction
Hua-Shuang Kong is a prolific inventor based in Cary, NC, with an impressive portfolio of 19 patents. His work significantly contributes to advancements in the field of crystalline material processing, particularly focusing on methods that enhance the efficiency and precision of material separation.
Latest Patents
Among his latest innovations is a groundbreaking patent titled "Carrier-assisted method for parting crystalline material along laser damage region." This patent outlines a method for removing a portion of a crystalline material substrate, such as Silicon Carbide (SiC). The approach involves joining the substrate's surface to a rigid carrier more than 800 μm thick, incorporating a subsurface laser damage region at a relative depth. By using adhesive material with a glass transition temperature above 25° C., the substrate bonds effectively to the carrier. The technology facilitates fracturing along the laser damage region through several methods, including the application of mechanical forces, controlled cooling, and ultrasonic energy.
Career Highlights
Hua-Shuang Kong has been associated with notable companies such as Cree GmbH and Wolfspeed, Inc., where he has contributed significantly to research and development in semiconductor technology and material science. His innovative approaches have played a crucial role in enhancing the performance and manufacturing processes of electronic components.
Collaborations
Throughout his career, Kong has collaborated with talented professionals, including John Adam Edmond and Matthew Donofrio. These partnerships have fostered a dynamic research environment, allowing for the exchange of ideas and expertise that further drive innovation.
Conclusion
Hua-Shuang Kong's contributions to the field of crystalline material processing exemplify the impact of innovation on technology. His 19 patents represent a commitment to advancing material science, particularly through methods that improve the efficiency of crystalline material separation. As he continues to innovate, Kong's work will likely lead to further advancements in this critical area of research.