Specialty chemicals are precisely engineered solutions. Jooe focuses on high-value-added synthetic technologies, offering catalytic reagents, chiral synthesis, biological markers, and specialty additives. Serving pharmaceutical R&D, advanced material synthesis, and fine chemical industries, the company drives industrial advancement through technological innovation, meeting stringent requirements for performance, purity, stability, and regulatory compliance in specific sectors.
Leveraging expertise in chiral synthesis, fluorination technology, and metal-organic catalysis, we provide customized synthesis of complex structural compounds such as chiral ligands, catalysts, monomers for electronic chemicals, and specialty monomers.
Contract manufacturing of high-purity reagents (≥99.9% purity) enables safe scale-up from gram-scale laboratory synthesis to ton-scale production via green processes such as flow chemistry and catalytic hydrogenation, reducing waste streams by over 30%.
For customers already using specialty chemicals, we offer product performance optimization services. Through in-depth analysis and testing of existing products, we identify performance bottlenecks and apply advanced modification technologies and formulation optimization methods to enhance product performance.
Technical consulting on asymmetric synthesis/fluorochemistry/metal catalysis application solutions, with full-cycle compliance support spanning product registration, environmental impact assessments, and EHS training.
Specialty chemicals in the field of organic synthesis and catalysis exhibit high selectivity, exceptional efficiency, and customizable properties: Methylating reagents such as trimethyloxonium salts enable precise alkylation of carbon/heteroatoms; Chiral phosphine ligands enhance optical purity of pharmaceutical intermediates through asymmetric catalysis; Amidation reagents such as acyl chlorides/condensing agents achieve high-yield peptide bond formation, widely applied in pharmaceutical and polymer synthesis.
Specialty chemicals in the biomedical field exhibit high bioactivity, stringent purity control, and targeted functionality: Immunomodulator intermediates such as thalidomide derivatives precisely regulate immune response pathways; 3-amino-2,6-piperidinedione ensure chiral drug molecule construction; Protease inhibitor intermediates such as boronic esters efficiently block enzyme active sites.
Functional additives including flame retardants, organophosphorus reagents, plasticizers, antioxidants, and UV absorbers, enhancing material properties through low-dosage incorporation, enabling flame resistance, processability, stability, and durability for demanding applications.
