Location History:
- Shinjuang, TW (2004 - 2005)
- Tao-Yuan, TW (2008 - 2010)
- Xinzhuang, TW (2010)
- Taipei County, TW (2012)
Company Filing History:
Years Active: 2004-2012
Title: Ray-Ming Lin: Innovator in GaN Technology
Introduction
Ray-Ming Lin, a prominent inventor located in Tao-Yuan, Taiwan, holds a total of six patents. His pioneering work in Gallium Nitride (GaN) technology has greatly advanced the fields of optoelectronics and biosensing.
Latest Patents
Among his notable inventions are two significant patents:
1. **GaN series light-emitting diode structure** - This innovative design pertains to a GaN series light-emitting diode structure featuring a substrate with at least one GaN series layer. This design introduces an interface blocking structure composed of an n-type GaN series superlattice structure and a GaN series light-emitting layer, enhancing radiative recombination efficiency under low-temperature and pure nitrogen atmospheric conditions.
2. **Oxidized low density lipoprotein sensing device for gallium nitride process** - This patent outlines a GaN HEMT device, which includes a gateless AlGaN/GaN sensing transistor device, a testing window, a source, a drain, and two metal connecting wires. The unique structure incorporates a passivation layer that facilitates the quick and accurate sensing of oxidizing proteins in the human body by leveraging a built-in piezoelectric field created by the properties of FET and the polarization effect of AlGaN/GaN.
Career Highlights
Ray-Ming Lin's career has been marked by his invaluable contributions to the field of GaN technology while working at Chang Gung University. His innovative solutions are paving the way for advancements in both light-emitting devices and medical sensing technologies.
Collaborations
Throughout his career, Ray-Ming Lin has collaborated with notable colleagues, including Yung-Hsiang Lin and Hsien-Chin Chiu, helping to foster a creative environment that enhances the innovation process at Chang Gung University.
Conclusion
Ray-Ming Lin stands as a key figure in the arena of innovations related to GaN technology. His work demonstrates significant potential in enhancing electronic devices and medical diagnostics, highlighting the importance of collaboration and research in driving technological progress.