Company Filing History:
Years Active: 2024
Title: Innovations by Chien-Chen Kuo in Electronic Element Modules
Introduction
Chien-Chen Kuo, an accomplished inventor from MiaoLi County, Taiwan, has made significant contributions to the field of electronic elements. With a total of two patents registered under his name, Kuo's innovations focus on improving the manufacturing methods for electronic modules, demonstrating his expertise in semiconductor technology.
Latest Patents
Kuo's latest patents revolve around the manufacturing methods of electronic element modules and semiconductor structures. One of his inventions involves a unique manufacturing method that allows for the disposal and replacement of defective micro-light-emitting diodes on temporary substrates. This process ensures that the first micro-light-emitting diodes and any replacements maintain the same properties, while accommodating variations in appearance, height, and orientation. His innovation extends to include semiconductor structures and display panels, further advancing the technology in electronic displays.
Career Highlights
Kuo is currently affiliated with Playnitride Display Co., Ltd., where he applies his technical skills and inventive mindset to develop cutting-edge solutions in display technology. His work is essential in enhancing the performance and reliability of electronic components utilized in various applications across industries.
Collaborations
Throughout his career, Kuo has collaborated with talented individuals such as Bo-Wei Wu and Yu-Yun Lo. These partnerships underscore the importance of teamwork in innovation, enabling the integration of diverse ideas and expertise to drive the development of new technologies.
Conclusion
Chien-Chen Kuo exemplifies the spirit of innovation within the electronics industry. With his patents reflecting a commitment to enhancing electronic element manufacturing processes, he continues to play a pivotal role in advancing technology. As the demand for improved electronic components rises, Kuo's contributions are likely to leave a lasting impact on the field.