Company Filing History:
Years Active: 2006-2008
Title: Innovations by Nayanee Gupta in Microelectronics
Introduction
Nayanee Gupta, a prominent inventor based in Portland, OR, has made significant contributions to the field of microelectronics. With two patents to her name, Gupta's innovative approaches have paved the way for advancements in semiconductor technology.
Latest Patents
Nayanee Gupta's latest patents revolve around methods of selective deposition to enhance the selectivity and uniformity of silicon alloy deposition in microelectronic structures. Her patents, titled "Selective deposition to improve selectivity and structures formed thereby" and "Methods for selective deposition to improve selectivity," describe a process involving the provision of a substrate with varying active area densities. This innovative method includes recesses for sources and drains, alongside dummy recesses in areas of lower active density, allowing for the selective deposition of a silicon alloy layer. These advancements improve the selectivity and overall performance of microelectronic devices.
Career Highlights
Nayanee Gupta's professional journey has been closely associated with Intel Corporation, where she has played a vital role in developing methods that significantly enhance semiconductor manufacturing processes. Her expertise in microelectronics and patenting has established her as a leading figure in the industry.
Collaborations
Throughout her career, Nayanee has collaborated with several talented professionals, including her coworkers Anand S Murthy and Chris Auth. These collaborations have further enriched her work, enabling the sharing of ideas and innovation in the competitive field of microelectronics.
Conclusion
Nayanee Gupta continues to push the boundaries of innovation in microelectronics through her patented technologies. Her contributions and collaborations reflect her commitment to advancing the field and inspiring future inventors in the industry. As she moves forward with her career, Gupta's work will undoubtedly leave a lasting impact on semiconductor technology.