Monolithic polymer
When we think of "plastic," we can imagine various objects with different properties, such as expanded polystyrene and plastic erasers. Our company has devised a method (polymerization) to successfully create objects with special shapes. At first glance, it may look like an enlarged photograph of a sponge, but the spaces are not "holes" but "pores," and all the spaces and the framework are interconnected. This continuously integrated structure is called a Monolith, and since it is made by polymerizing organic materials centered around carbon, the finished product is referred to as "Monolith-type polymer." This Monolith-type polymer has the following characteristics, and we are developing products that leverage these features. [Characteristics] 1. Continuous through-holes rather than independent holes like a foam material. 2. The sizes of the framework (material part) and the flow paths (pore part) can be independently controlled, and those sizes are very uniform. 3. The framework, which is the polymer part, also forms a continuous network similar to the flow paths, demonstrating high strength.
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basic information
When we think of "plastic," we can imagine various objects with different properties, such as Styrofoam and plastic erasers. Our company has devised a method (polymerization) to successfully create objects with special shapes. At first glance, it may look like an enlarged photograph of a sponge, but the spaces are not "holes" but "pores," and all the spaces and the framework are interconnected. This continuously integrated structure is called a Monolith, and since it is made by polymerizing organic materials centered around carbon, the finished product is referred to as "Monolith-type polymer." This Monolith-type polymer has the following characteristics, and we are developing products that leverage these features. [Characteristics] 1. Continuous through-holes rather than independent holes like a foam. 2. The sizes of the framework (material part) and the flow paths (pore part) can be independently controlled, and these sizes are very uniform. 3. The framework, which is the polymer part, also forms a continuous network similar to the flow paths, demonstrating high strength.
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Applications/Examples of results
Use as a separation medium Column for high-performance liquid chromatography Development of monolithic organic nanoparticles Use as a water quality retention material
Company information
EMAUS Kyoto is a venture company established in March 2004, named after the initials of "Extended Monolith Application Using Sol-gel technology."