We mainly deal in heterogeneous catalysts such as palladium on activated carbon (Pd/C) and Raney®-type catalysts.
The heterogeneous catalysts we handle are mainly used for hydrogenation reactions, but platinum on activated carbon (Pt/C) and Raney® copper catalysts are also effective for dehydrogenation reactions.
We deal in palladium-based complex catalysts, which are mainly effective for coupling reactions such as Suzuki-Miyaura and Heck reactions.
In order to maintain both reactivity and reduce pressure loss, we offer catalysts with precious metals supported on medium powder form activated carbon or spherical form activated carbon.
We offer catalysts effective for Chemoselective reduction with suppressed dehalogenation reactions and selective reduction of acetylene to olefins.
We deal in SODIUM METHYRATE, which is mainly used in the esterification reaction of fats and oils.
We recover precious metals and base metals at high yield from used catalysts generated by our customers, and recycle them as raw materials for catalysts or purchase them as valuable resources.
We deal in industrial chemicals indispensable for organic synthesis, such as sodium borohydride (SBH).
We handle raw materials effective for introducing pyridine, piperazine, and indane skeletons, which are frequently used as basic skeletons for pharmaceuticals.
Solvents are indispensable for chemical reactions. DMEU is particularly effective as a reaction solvent because it is thermally and chemically stable and has excellent solubility in inorganic compounds as well as organic compounds.
We want to selectively react only with certain functional groups, and a widely used technique for this purpose is the protection group. We mainly deal with compounds that are effective in protecting hydroxy groups.
We offer a variety of raw materials useful for synthesis of pharmaceuticals and agrochemicals.
We offer DMEU, which is low-toxic and hypoallergenic, yet mixes perfectly with water and most organic solvents, and has excellent solubility in nitrocellulose, various resins, inorganic and organic compounds used in nail enamels.
There are many types of raw materials for synthetic resins depending on their applications and characteristics. We mainly handle compounds that are expected to add functionality through end modification when added as raw materials for resins.
We deal in alumina sol, which is used as a binder for ceramics, refractories, exhaust gas catalysts, etc.
We deal in alumina sols, which are added to PVA resins, acrylic resins, epoxy resins, and polyimide resins to suppress thermal expansion and improve heat resistance, elastic modulus, and strength.
We deal in alumina sol used for anti-fog coating utilizing hydrophilic property, weathering materials with improved durability, heat resistance, wear resistance, etc., and oxygen barrier films. Highly transparent thin films can also be obtained.
We deal in aluminum organic compounds used as catalysts for reduction catalysts, ester exchange reactions, olefin polymerization reactions, etc.
We deal in aluminum organic compounds that can be expected to replace tin catalysts used in urethane curing. They are effective in improving adhesion and transparency as well as environmental friendliness.
We deal in aluminum organic compounds used as curing agents and cross-linking accelerators for epoxy resins. They are also expected to be used as curing catalysts to promote self-polymerization of epoxy groups.
We deal in aluminum organic compounds used as curing agents and cross-linking agents for epoxy, silicone, and acrylic resins for paints. The addition of these compounds improves adhesion, strength, heat resistance, and other properties.
We deal in aluminum organic compounds used as cross-linking agents for acrylic and rubber adhesives. Addition of these compounds is effective in improving the retention (adhesive strength) of adhesives.
We deal in aluminum organic compounds used as surface treatment agents for inorganic oxides and other materials for paints, inks, electronic materials and products. They are expected to improve dispersibility, strength, heat resistance, and antistatic properties.
We handle aluminum organic compounds used as gelling agents for printing inks, which are widely used in the printing industry.
We handle polymer dispersants used to disperse inorganic and organic pigments used in paints and inks. The addition of these dispersants increases pigment concentration, prevents sedimentation and agglomeration, and improves coloring power.
We deal in lubricants used to release molds from metal surfaces during plastic molding and to improve the flowability of powder resins.
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