Company Filing History:
Years Active: 2021
Title: The Innovative Contributions of Phillip R. Maloney
Introduction
Phillip R. Maloney is a notable inventor based in Orlando, FL, who has made significant contributions to the field of radiation detection. His work focuses on developing advanced sensors that can measure ionizing radiation effectively. With a keen interest in innovation, Maloney has dedicated his career to enhancing safety and monitoring technologies.
Latest Patents
Maloney holds a patent for a "Passive Sensor for Measuring Ionizing Radiation." This invention is designed to detect ionizing radiation over time using a surface acoustic wave (SAW) sensor. The sensor incorporates a polymer film that deforms in response to radiation exposure, allowing for accurate measurement of radiation levels. As the polymer film reacts to ionizing radiation, it undergoes a chain-scission reaction, resulting in a change in mass and rigidity. This change is detected by the SAW sensor, which alters its wavelength in response to the varying rigidity of the polymer film.
Career Highlights
Phillip R. Maloney is associated with the United States of America as represented by the Administrator of NASA. His work at NASA has allowed him to collaborate with leading experts in the field and contribute to groundbreaking research in radiation detection technologies. His innovative approach and dedication to improving safety measures have made him a valuable asset in his field.
Collaborations
Maloney has worked alongside esteemed colleagues such as Jacqueline W. Quinn and Robert W. DeVor. Their collaborative efforts have further advanced the research and development of radiation detection technologies, showcasing the importance of teamwork in scientific innovation.
Conclusion
Phillip R. Maloney's contributions to the field of radiation detection through his innovative patent demonstrate his commitment to enhancing safety technologies. His work continues to impact the industry positively, paving the way for future advancements in radiation measurement.