Identifying the critical micelle concentration! With DDS such as liposomes, it has become possible to quantify the state in solution.
In the medical field, there were challenges in the manufacturing of suitable drugs for diseases and the development and manufacturing processes of artificial blood. Therefore, our solution enabled the identification of the critical micelle concentration. With drug delivery systems (DDS) such as liposomes, it has become possible to quantify the state in liquid, and the speed of this process is approximately 2 minutes. By focusing on the macro rather than the micro, we successfully developed an innovative measurement system that derives the liquid state from information about the strength and quantity of specific intermolecular forces. Additionally, while liposomes and polymer micelles/vesicles were previously subjected to time-consuming separation and analysis of their constantly changing states, our proposed new system allows for the measurement of temporal changes over a short span, enabling the monitoring of states that change continuously. *For more details, please refer to the PDF document or feel free to contact us.
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In the world's industries, chemically complex mixed solutions are utilized in various situations. These functional liquids are the crystallization of countless knowledge and experience accumulated through effort. The process of creating these liquids always involves the skills of "artisans." Artisans capture the balance of liquids, which cannot be seen even when using multiple devices, instantly utilizing their senses and intuition, guiding them to a state ready for shipment. We have learned from the artisanal techniques that yield instant and highly accurate results, developing entirely new concepts for measurement methods and control technologies. The fundamental idea behind this approach is not to break things down, but to grasp the whole comprehensively. The processes that become invisible when separated hold significant meaning and value, and we aim to detect and utilize that hidden information. We believe that the liquid solutions we propose will greatly advance the future of liquids worldwide, enabling more freedom and creativity in manufacturing. We are confident that our technology can make this a reality.