Company Filing History:
Years Active: 1981
Title: **Innovator Alexandr M. Klibanov: A Pioneer in Imaging Technology**
Introduction
Alexandr M. Klibanov, based in Moscow, Russia, is recognized for his significant contributions to the field of imaging technology. With a unique approach to visual representation, Klibanov has secured a patent that showcases his innovative thinking and dedication to enhancing imaging methods.
Latest Patents
Klibanov holds one notable patent titled "Method and apparatus for producing visible image of object." This innovative method involves illuminating a fermental plate with ultrasonic waves, creating a latent image of the object. This latent image is then developed using a solution of chromogenic substrates, such as hydrogen peroxide and a water-soluble aromatic amine. The apparatus associated with this method includes an ultrasonic generator that produces ultrasonic waves to illuminate the object, a fermental plate for converting these waves into a visible image, and a tray filled with a developer to finalize the imaging process.
Career Highlights
Throughout his career, Klibanov has been an integral part of the Vsesojuzny Kardiologichesky Nauchny Tsentr Akademii Meditsinskikh Nauk, contributing to advancements in cardiovascular research and diagnostics. His work reflects a strong commitment to innovation in medical imaging and technology.
Collaborations
Klibanov has collaborated with esteemed colleagues, including Ilia V. Berezin and Viktor S. Goldmakher. Together, these professionals have worked to enhance the understanding and application of imaging technologies in various scientific fields.
Conclusion
In summary, Alexandr M. Klibanov stands out as an innovative inventor in the realm of imaging technologies. His patent illustrates a significant advancement in producing visible images of objects, highlighting his role as a pioneer in this specialized field. Through his work at the Vsesojuzny Kardiologichesky Nauchny Tsentr, Klibanov continues to inspire future inventions and innovations in medical imaging.