Company Filing History:
Years Active: 2022-2025
Title: Innovations by Paul T. Hoopingarner
Introduction
Paul T. Hoopingarner is an accomplished inventor based in Missouri City, TX (US). He has made significant contributions to the field of fluid analyses and sensor constructs, holding a total of 4 patents. His work focuses on the design and application of hexasubstituted benzenes, which have promising implications for analyte detection in various fluids.
Latest Patents
Hoopingarner's latest patents include innovative methods for utilizing hexasubstituted benzenes. One of his notable patents describes how phenyl rings can serve as a robust scaffold for molecular design. The alternating groups in these compounds can be directed toward opposite faces of the phenyl ring, allowing for the promotion of both surface attachment and the introduction of functionalities that enhance analyte detection. His research emphasizes the ability of hexasubstituted benzenes to covalently bond to surfaces while also possessing functionalities that facilitate the detection of one or more analytes in fluids, including complex multi-phase fluids.
Career Highlights
Throughout his career, Hoopingarner has demonstrated a commitment to advancing the field of analytical chemistry. His work has led to the development of hexasubstituted benzenes that can alleviate challenges associated with forming highly substituted phenyl rings. These innovations have opened new avenues for functionalization and surface attachment, making significant strides in the detection of analytes.
Collaborations
Some of his notable coworkers include Robert E. Hanes, Jr. and Richard L. Pettys. Their collaborative efforts have contributed to the success of the projects undertaken at Countertrace, LLC, where Hoopingarner currently works.
Conclusion
Paul T. Hoopingarner's innovative work in fluid analyses and sensor constructs showcases his expertise and dedication to advancing technology in this field. His contributions are paving the way for more effective methods of analyte detection, which could have far-reaching implications in various industries.