Location History:
- Essex Junction, VI (US) (1976)
- Poughkeepsie, NY (US) (1980)
Company Filing History:
Years Active: 1976-1980
Title: The Innovative Contributions of Richard Alan Unis in Semiconductor Technologies
Introduction:
Richard Alan Unis, a prolific inventor based in Essex Junction, Vermont, has made significant contributions to the field of semiconductor technologies. With two patents to his name, Unis has been at the forefront of developing methods to enhance the performance of integrated circuits.
Latest Patents:
Unis's latest patents showcase his expertise in reducing parasitic capacitance in semiconductor devices. One of his inventions focuses on removing raised portions of conductive layers in semiconductor memory integrated circuits using a precise masking and etching process. This method effectively reduces capacitive coupling between conductors, particularly in dynamic MOSFET memory arrays. The second patent involves controlling doped oxide diffusion profiles to minimize parasitic capacitance in FET single device memory cells and arrays.
Career Highlights:
Richard Alan Unis is a key figure at the International Business Machines Corporation (IBM), where he continues to drive innovation in semiconductor technologies. His role at IBM has enabled him to bring cutting-edge solutions to the realm of integrated circuits and memory arrays, showcasing his dedication to advancing the field.
Collaborations:
During his tenure at IBM, Unis has collaborated with esteemed colleagues such as Wendell P Noble and Robert M Quinn. Together, they have pushed the boundaries of semiconductor research, sharing knowledge and expertise to further enhance the development of new technologies.
Conclusion:
Richard Alan Unis's pioneering work in semiconductor technologies, exemplified by his patented methods for reducing parasitic capacitance, underscores his commitment to innovation and excellence in the field. His collaborations with industry leaders and colleagues have solidified his reputation as a forward-thinker in integrated circuit design and manufacturing, shaping the landscape of semiconductor technologies for the future.