Company Filing History:
2 out of 7,284 
1 out of 9,166 
Years Active: 2024-2025
Title: Innovations of Inventor Jen-Chieh Lin
Introduction
Jen-Chieh Lin is a notable inventor based in Horseheads, NY (US). He holds three patents that showcase his contributions to the field of materials science and engineering. His work primarily focuses on advanced methods for metallization and bonding techniques in glass substrates.
Latest Patents
One of his latest patents is titled "Copper metallization for through-glass vias on thin glass." This patent describes a method for metallizing through-glass vias in a glass substrate by functionalizing the surface with a silane. The process involves applying an electroless plating solution containing copper ions to deposit a copper seed layer. An electrolyte is then introduced within the vias, allowing for the deposition of copper ions, which are reduced into copper, filling the vias with a void volume fraction of less than 5%.
Another significant patent is "Temporary bonding using polycationic polymers." This invention outlines methods for creating articles, such as glass products, that consist of a thin sheet and a carrier bonded together using a modification layer, such as a cationic polymer coating. This layer ensures sufficient bond strength to prevent delamination during high-temperature processing while avoiding the formation of a permanent bond.
Career Highlights
Throughout his career, Jen-Chieh Lin has worked with prominent organizations, including Corning Incorporated and the Industrial Technology Research Institute. His experience in these companies has allowed him to develop innovative solutions that address complex challenges in materials engineering.
Collaborations
Jen-Chieh Lin has collaborated with notable colleagues, including Prantik Mazumder and Pei-Lien Tseng. Their combined expertise has contributed to advancements in the technologies they have developed.
Conclusion
Jen-Chieh Lin's innovative patents and career achievements highlight his significant contributions to the field of materials science. His work continues to influence advancements in glass technology and metallization methods.