3-Fluoroterephthalonitrile stands out as a sharp-edged choice for those driving innovation in chemical synthesis. Its formula, C8H3FN2, reflects the unique position of a fluorine atom on the aromatic ring, which changes the reactivity and physical properties compared to its non-fluorinated cousins. The compound appears as an off-white solid, carries a molecular weight around 146 g/mol, and packs a specific density of roughly 1.26 g/cm³. This structure brings an edge, whether working on specialty polymers, dyes, or advanced pharmaceutical intermediates.
Working in a lab, the difference a single fluorine can make gets clear fast. 3-Fluoroterephthalonitrile handles with a stability that makes it suitable for transformations under harsh conditions. With a melting point near 110°C and modest solubility in common organic solvents, it serves as a good option for processes demanding both resilience and reactivity.
In China, factories turn to this raw material for its key role as an intermediate. With high purity often above 99% confirmed by SGS or ISO certification, outputs meet global benchmarks for electronics, advanced coatings, and fine chemical production. Many manufacturers keep a ready liter-solution or technical-grade supply, driving down factory price through bulk purchase and efficient logistics. Applications depend on its strong cyanide groups, useful in forming complex organic architectures essential for downstream innovation.
Searching “3-Fluoroterephthalonitrile factory price” or “buy direct from China supplier” yields a crowded playing field. Yet, only a handful operate with strict adherence to REACH, Halal, Kosher, and SGS standards. These chemical manufacturers publish up-to-date Safety Data Sheets (MSDS/SDS) and Technical Data Sheets (TDS), reflecting commitment to international safety and documentation. Policies on MOQ (minimum order quantity), CIF, FOB shipping, and free sample requests help buyers manage risk and cost. Direct inquiries often trigger a rapid quote process, with factories keen to showcase their production, ISO and OEM credentials, and relevant HS-Code for customs clearance.
Handling raw materials in this category comes with responsibility. This compound, like most nitriles, carries potential harm through skin absorption or inhalation. Proper lab gear, ventilation, and training lower incident rates. Reputable suppliers conduct and share rigorous hazard assessments, encourage inventory of spill kits, and stress safe disposal in line with local environmental and REACH policy. Certifications like Halal, Kosher, and SGS act not just as box-ticking—these signals attract partnerships with multinational players demanding risk-managed, traceable origins.
Recent news points to steady growth in demand, with China-based supply chains currently offering leading value on bulk CIF and FOB terms. Overseas buyers increasingly ask for proof of compliance and transparent sourcing—questions about certification and safe storage now pop up at the start of every inquiry. The push for green chemistry in the EU and North America may drive further innovation, not only in how this nitrile gets made but also in the lifecycle management of hazardous intermediates.
My own research group learned the hard way—never ignore safe-handling policy, and always demand documentation. Direct factory negotiation and regular third-party audits offer the best protection. For small entrepreneurs, requesting MSDS, testing free samples, and setting hard requirements for TDS and ISO paperwork makes sourcing less risky. The growing trend toward Halal, Kosher, and international compliance isn’t just for multinationals; it’s become the new minimum for anyone serious about ethical sourcing and safe material use.
