Company Filing History:
Years Active: 2014-2015
Title: Innovations by Albert Hort in Scintillator Technologies
Introduction
Albert Hort is a notable inventor based in Mount Laurel, NJ, who has made significant contributions to the field of scintillator technologies. With a total of two patents to his name, Hort has focused his efforts on advancing scintillation crystal materials and their applications in radiation detection.
Latest Patents
Hort's latest patents include groundbreaking developments in scintillator crystal materials and methods for pre-treating packaging materials designed for use with scintillation crystals. One of his patents elaborates on the composition of the packaging materials, which may include a variety of reflecting materials such as elastomers or highly reflective metal foils. These innovations are aimed at enhancing the performance and efficiency of scintillator packages used in radiation detectors. Another patent describes a scintillation crystal formula that integrates activator ions to improve the crystal's functionality, leading to advancements in radiation detection technologies.
Career Highlights
Currently, Albert Hort is associated with Schlumberger Technology Corporation, a pioneering company in technology and services for the oil and gas industry. His work at Schlumberger has allowed him to leverage cutting-edge research and contribute to the development of innovative materials that meet industry needs.
Collaborations
Throughout his career, Hort has collaborated with distinguished colleagues such as John J. Simonetti and Christian Stoller. These collaborations have played a crucial role in the development of innovative technologies and the refinement of scintillator materials, further establishing his reputation as a leading inventor in his field.
Conclusion
Albert Hort's contributions to the realm of scintillator technologies through his patents and collaborations exemplify the impactful role of inventors in shaping advancements in scientific and technology domains. His work not only enhances the understanding of scintillation crystals but also paves the way for improved applications in radiation detection.