Emory W Sarver

Title: Emory W. Sarver: Innovator in Chemical Detection Technologies

Introduction

Emory W. Sarver is a notable inventor based in Havre de Grace, MD (US). She has made significant contributions to the field of chemical detection, particularly in enhancing the capabilities of existing chemical agent detectors. With a total of 3 patents, her work focuses on innovative solutions for detecting low volatility agents.

Latest Patents

One of her latest patents is the "Sample heater assembly and method of use thereof." This invention addresses the limitations of existing chemical agent detectors, which often struggle to accurately detect low volatility agents like the chemical warfare agent VX. The sample heater assembly allows for the vaporization of low volatility agents, enabling effective detection by existing chemical agent detectors. The assembly includes a sample containment reservoir for holding the agent sample and a heating element that facilitates the heating process.

Another significant patent is the "On-the-move surface sampling head for a mass spectrometer." This invention employs a silicone membrane with an internal heater, working in conjunction with a mass spectrometer analyzer. It features a modified transfer line equipped with a quick-connect electrical-pneumatic connector, which aids in detecting chemically contaminated areas efficiently.

Career Highlights

Emory W. Sarver is currently employed by the U.S. Government as represented by the Secretary of the Army. Her role involves developing advanced technologies for chemical detection, contributing to national security and safety.

Collaborations

Throughout her career, Emory has collaborated with notable colleagues, including Paul C. Bossle and John J. Martin. These collaborations have furthered her research and development efforts in the field of chemical detection.

Conclusion

Emory W. Sarver's innovative work in chemical detection technologies has made a significant impact on the field. Her patents demonstrate her commitment to enhancing detection capabilities, ultimately contributing to safety and security measures.