Company Filing History:
3 out of 2,449 
1 out of 1,192 Years Active: 1992-2019
Title: The Innovative Contributions of Inventor Dorothy Lukco
Introduction
Dorothy Lukco, an accomplished inventor based in Sagamore Hills, Ohio, boasts an impressive portfolio of four patents. Her pioneering work in the field of microelectronics has made significant contributions to technology, particularly in developing components that withstand extreme environmental conditions.
Latest Patents
Lukco's notable recent patents include a *Durable bond pad structure for electrical connection to extreme environment microelectronic integrated circuits*. This invention facilitates sturdy electrical connections to semiconductor microelectronics chips, like silicon carbide (SiC), allowing prolonged operational capabilities under extreme temperature ranges. Another impressive patent is the *miniaturized Schottky diode hydrogen and hydrocarbon sensor and the method of making same*. This sensor features a catalytic metal layer—such as palladium—on a silicon carbide substrate layer and includes a thin barrier layer made of palladium oxide. This innovative design provides sensitive gas detection at high temperatures ranging from 450 to 600 degrees Celsius, employing conventional semiconductor fabrication techniques to produce compact sensors.
Career Highlights
Throughout her career, Dorothy Lukco has contributed her expertise to notable organizations, including the National Aeronautics and Space Administration (NASA) and The Standard Oil Company. Her work in these prominent companies has significantly impacted the development of reliable microelectronic devices that perform in challenging environments.
Collaborations
Lukco has collaborated with esteemed colleagues such as Gary W. Hunter and Jennifer C. Xu. Their collective efforts have advanced research and development in microelectronics, particularly concerning sensors and durable electronic components.
Conclusion
Dorothy Lukco's innovative spirit and dedication have led to significant advancements in semiconductor technology. Her patents reflect her commitment to improving electronic devices and their performance in extreme conditions, ensuring her contributions will shape the future of microelectronics.