Jan-Liang Yang

Title: Jan-Liang Yang: Innovator in Semiconductor Manufacturing

Introduction: Jan-Liang Yang, based in Taichung, Taiwan, is an accomplished inventor known for his contributions to semiconductor manufacturing. With a keen focus on developing methods that enhance the efficiency and quality of semiconductor devices, Yang has made a significant impact in the field.

Latest Patents: Yang holds a patent for a groundbreaking method titled "Method of storing photoresist coated substrates and semiconductor substrate container arrangement." This innovative technique involves forming a photoresist layer over a semiconductor substrate and selectively exposing it to actinic radiation. The next crucial step in his method is storing the semiconductor substrate in a container under an environment of extreme dry clean air or inert gas. This careful storage condition is important for maintaining the integrity of the semiconductor substrate prior to the subsequent first heating of the photoresist layer, which is essential for the manufacturing process of semiconductor devices.

Career Highlights: Throughout his career, Jan-Liang Yang has consistently pursued advancements in semiconductor technology. His patent underlines his dedication to improving manufacturing techniques that can lead to enhanced semiconductor performance and reliability. Yang's innovative approach exemplifies the critical role inventors play in the evolution of technology.

Collaborations: Jan-Liang Yang has collaborated with his coworker Sheng-Wen Jiang to further explore and refine techniques in semiconductor manufacturing. Their partnership highlights the importance of teamwork in driving innovation and achieving breakthroughs in complex fields such as this.

Conclusion: Jan-Liang Yang stands out as a leading inventor in the realm of semiconductor manufacturing. His patented method not only showcases his innovative spirit but also contributes valuable knowledge to the industry. As technology continues to evolve, Yang's work is poised to impact the future of semiconductor devices significantly.