Company Filing History:
Years Active: 2002
Title: The Innovative Contributions of Robert Michael Kozar
Introduction
Robert Michael Kozar is an accomplished inventor based in Prospect, Pennsylvania, known for his significant contributions to the field of electron microscopy. His innovative work has led to the development of a unique specimen holder that enhances the capabilities of transmission electron microscopes, enabling researchers to achieve better analysis of microstructural features.
Latest Patents
Kozar holds a patent for his invention titled "Double Tilt and Rotate Specimen Holder for a Transmission Electron Microscope". This groundbreaking specimen holder allows for the rotation and tilting of specimens in multiple axes, providing versatility in viewing and analyzing various materials. The design permits tilting in both the X-axis and Y-axis directions, along with a full 360° rotation about the electron beam axis. This functionality is essential for aligning microstructural features optimally, making it a vital tool in the field of materials science.
Career Highlights
Kozar's professional journey has been closely associated with Gatan, Inc., a company recognized for its advancements in the field of electron microscopy. His role has been instrumental in developing tools and technologies that cater to scientists and researchers worldwide, facilitating deeper insights into material properties.
Collaborations
Throughout his career, Robert Michael Kozar has worked alongside talented colleagues such as Reza Alani and Barbara Louise Armbruster. Together, they have contributed to advancing the understanding and application of electron microscopy, promoting innovative solutions within the scientific community.
Conclusion
In summary, Robert Michael Kozar stands out as a noteworthy inventor whose patent for the double tilt and rotate specimen holder has made a significant impact on transmission electron microscopy. His work continues to inspire innovation and collaboration in research institutions, enhancing the study of materials at the microscopic level.