Company Filing History:
Years Active: 1999
Title: Innovations of Shih-Wei Wang
Introduction
Shih-Wei Wang is a notable inventor based in Pingtung, Taiwan. He has made significant contributions to the field of materials science, particularly in the development of structures that enhance the performance of electronic devices. His innovative approach has led to the creation of a unique patent that addresses critical issues in semiconductor manufacturing.
Latest Patents
Wang holds a patent for a "Structure for reducing stress between metallic layer and spin-on-glass." This invention focuses on reducing stress between a high-temperature stable quartz (HSQ) dielectric layer and a metal layer. The structure consists of a metal layer, a stress buffer above the metal layer, and a spin-on-glass layer above the stress buffer. If the spin-on-glass layer produces tensile stress, the stress buffer is made from a material that generates compressive stress. Conversely, if the spin-on-glass layer produces compressive stress, the stress buffer is made from a material that generates tensile stress. This innovative design is crucial for improving the reliability and performance of electronic components.
Career Highlights
Shih-Wei Wang is currently employed at United Microelectronics Corporation, a leading semiconductor foundry. His work at this esteemed company has allowed him to apply his inventive ideas in a practical setting, contributing to advancements in semiconductor technology. Wang's dedication to innovation has positioned him as a key player in his field.
Collaborations
Wang collaborates with Kow-Ming Chang, a talented female engineer. Their partnership exemplifies the importance of teamwork in driving technological advancements. Together, they work on projects that push the boundaries of materials science and semiconductor manufacturing.
Conclusion
Shih-Wei Wang's contributions to the field of materials science and semiconductor technology are noteworthy. His innovative patent demonstrates his commitment to solving complex engineering challenges. Wang's work continues to influence the industry, paving the way for future advancements in electronic devices.