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Technology
Material Design
– Using our proprietary database POROS™, the structure and function of porous coordination polymers, we quickly design optimal materials for your purposes through computer simulation and machine learning.
– The performance of the material is verified by evaluating physical properties such as adsorption/release characteristics and catalytic activity of the target molecule.
– Elucidate the interaction and reaction mechanisms between the target and porous coordination polymers, leading to the development and improvement of material functions.
– We support the development of life science applications with bioPCP™, a biocompatible coordination polymer that is biodegradable and safe in the body.
Mass Production
– We possess proprietary solid-phase and semi-solid-phase synthesis processes that are environmentally friendly and can be mass-produced at low cost.
– We develop dosage forms suitable for mass production by controlling the shape into granules, pellets, honeycombs, etc.
– We develop technologies for compositing porous coordination polymers with other materials and surface modification to improve the stability and efficiency of materials.
Mass Production
– We possess proprietary solid-phase and semi-solid-phase synthesis processes that are environmentally friendly and can be mass-produced at low cost.
– We develop dosage forms suitable for mass production by controlling the shape into granules, pellets, honeycombs, etc.
– We develop technologies for compositing porous coordination polymers with other materials and surface modification to improve the stability and efficiency of materials.
Evaluation
– We predict the structure and function of porous coordination polymers by computer simulation and design the optimal material for your purpose.
– We evaluate physical properties such as adsorption and release characteristics of gases and catalytic activity to verify the performance of the materials.
– We elucidate the interaction and reaction mechanisms between gases and porous coordination polymers, leading to the development and improvement of material functions.