Company Filing History:
Years Active: 1976-1999
Title: Innovations by Garold L. Goken in Radiochemical Analysis
Introduction
Garold L. Goken is an accomplished inventor based in Birchwood, MN, recognized for his significant contributions to the field of radiochemical analysis. With a total of three patents to his name, Goken has developed innovative methods that enhance the accuracy and efficiency of chemical analysis.
Latest Patents
Goken's latest patents focus on the advancement of solid phase extraction methods. His primary patent describes a technique that employs a composite sheet material, consisting of ion-specific sorptive or reactive particles within a porous matrix. This method allows for direct measurement of ion-containing radiochemical analytes. The process involves contacting the solid phase extraction sheet with a fluid containing these analytes, enabling selective extraction of the analyte for subsequent analysis. This innovative method not only facilitates quantitative data collection but also qualitative assessment relating to the radiochemical analyte.
Career Highlights
Throughout his career, Garold L. Goken has demonstrated a commitment to advancing scientific understanding through practical inventions. His work at the Minnesota Mining and Manufacturing Company has been instrumental in bringing these patented techniques to fruition, benefiting the fields of chemistry and environmental science.
Collaborations
Goken has collaborated with notable coworkers including Wolfgang H. Strehlow and Alfred D. Nelson. Together, they have contributed to the development of methodologies that enhance the reliability and precision of radiochemical analyses in various applications.
Conclusion
Garold L. Goken’s innovations in solid phase extraction reflect his dedication to improving analytical techniques in radiochemistry. His patents serve as valuable resources for scientists and researchers, paving the way for further advancements in the field. Goken’s work exemplifies how innovative thinking can lead to significant enhancements in scientific methodologies.