Company Filing History:
Years Active: 2015
Title: Alexander Carbone - Innovator in Ultra-Low Temperature Storage Solutions
Introduction
Alexander Carbone, an inventive mind based in Northridge, MA, has made significant contributions to the field of ultra-low temperature storage technologies. His innovative designs aim to enhance the efficiency and reliability of storing biological and chemical samples, which are paramount for research and medical applications.
Latest Patents
Carbone holds a patent for his groundbreaking work titled "Tube picking mechanisms with an ultra-low temperature or cryogenic picking compartment." This patent focuses on a tube picking mechanism specifically designed for use in automated systems operating at extremely low temperatures ranging from -80°C to -196°C. The mechanism ensures that biological or chemical samples stored within ultra-low temperature or cryogenic environments are handled efficiently, while minimizing heat transfer and maintaining the integrity of the stored samples.
Career Highlights
Currently, Alexander Carbone is employed by Hamilton Storage Technologies, Inc., where he applies his expertise to create innovative solutions for sample storage and retrieval. His work at Hamilton Storage Technologies exemplifies his commitment to advancing the field of cryogenic storage systems.
Collaborations
Throughout his career, Carbone has collaborated with esteemed colleagues Julian D. Warhurst and Bruce S. Zandi. Together, they contribute to the development of cutting-edge technologies that address the challenges faced in low-temperature sample storage and retrieval processes.
Conclusion
Alexander Carbone's contributions to ultra-low temperature storage mechanisms highlight his role as a pivotal inventor in the scientific community. His patented innovations serve as a testament to his dedication and expertise in enhancing the reliability and efficiency of cryogenic systems. As the need for reliable biological and chemical sample storage continues to grow, the impact of Carbone's work remains vital to ongoing advancements in various research fields.