William A Clarke

Title: William A. Clarke: Innovator in Analytical Methods

Introduction

William A. Clarke is a notable inventor based in Baltimore, MD (US). He has made significant contributions to the field of analytical methods, particularly in the area of immunoassays. With a total of 3 patents, Clarke's work has advanced the capabilities of detecting and quantifying analytes in various samples.

Latest Patents

Clarke's latest patents include innovative methods that enhance the efficiency and accuracy of analytical testing. One of his key inventions is the "Microcolumn chromatographic immunoassays." This invention is directed toward an analytical method to determine the concentration of an analyte or free analyte fraction in a sample. The method involves applying a sample containing an analyte to an immunoaffinity column capable of selectively extracting the analyte in the millisecond time domain. The concentration of the analyte is then determined by chromatographic immunoassay.

Another significant patent is the "Analysis of free analyte fractions by rapid affinity chromatography." This invention focuses on determining the concentration of the free analyte fraction in a sample. The method encompasses applying a sample comprising a free and bound analyte fraction to an affinity column capable of selectively extracting the free fraction in the millisecond time domain. The signal generated by the free fraction is quantified using standard analytical detection techniques, allowing for accurate concentration determination.

Career Highlights

William A. Clarke is affiliated with the University of Nebraska, where he continues to contribute to research and innovation in analytical methods. His work has been instrumental in developing techniques that improve the speed and reliability of analyte detection.

Collaborations

Clarke collaborates with David S. Hage, a fellow researcher, to further enhance the impact of their work in the field of analytical chemistry.

Conclusion

William A. Clarke's contributions to analytical methods through his innovative patents have significantly advanced the field. His work continues to influence the way analytes are detected and quantified, showcasing the importance of innovation in scientific research.