Metal-Organic Framework (MOF)
Regardless of infinite or finite structures, it is possible to construct very complex structures and manifest higher-order functions!
"Metal-organic frameworks and porous coordination polymers" are porous materials obtained through the self-assembly of metal ions and organic ligands. By bridging the metal ions, which serve as nodal points, with organic ligands, a framework structure is constructed, and the voids within this framework act as spaces for molecular incorporation, resulting in a very large surface area. Porous materials have been a factor hindering the research and development of highly functional and multifunctional porous materials that coexist with multiple pore functions. In this regard, metal-organic frameworks have made it possible to construct very complex structures and exhibit higher-order functions by precisely incorporating coordination bonds into molecular design, regardless of infinite or finite (crystalline or solution) structures. [Features] ■ Porous materials obtained through the self-assembly of metal ions and organic ligands ■ Voids within the framework act as spaces for molecular incorporation ■ Not limited to infinite or finite (crystalline or solution) structures ■ Capable of constructing very complex structures and exhibiting higher-order functions ■ A wide range of applications is expected, including gas storage, selective storage of molecules and ions, electrolytes, and sensors *If you would like a paid sample, please contact us.
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We are a chemical company that researches, develops, manufactures, and sells cutting-edge materials and technologies in the environmental and energy sectors aimed at building a decarbonized society. We are developing various advanced materials and technologies, including natural biomass-based biodegradable plastics (resins), biomass coating materials, biomass inks, next-generation solar cells, next-generation secondary batteries, next-generation fuel cells, quantum dots, metal-organic frameworks, ionic liquids, deep eutectic solvents, and cellulose nanofibers. Our original brand, Nano Sakura, under GS Alliance, significantly enhances the functional properties of raw materials by "compositing" cellulose nanofibers, which are the main component of plants, with various existing resin materials, resulting in an environmentally friendly, next-generation high-performance advanced material. We also offer products made from 100% natural materials derived from natural biomass waste resources such as wood, plants, bamboo, paper, recycled paper, seaweed, and starch, aiming for a grade with zero petroleum usage, striving to create materials that are as environmentally friendly as possible. We have been selected as a startup support program company by UNOPS, a United Nations-related organization. UNOPS S3i Innovation Centre Japan