3,4,5-Trifluorobenzonitrile stands out in the panorama of specialty chemicals. Strong demand grows from pharmaceuticals, agrochemicals, and electronic materials sectors, mainly because high-purity intermediates anchor new product development. Its chemical formula, C7H2F3N, gives it structural rigidity, bringing stability in many multi-step syntheses. The compound offers a specific density of 1.39 g/cm3 and a molecular weight of 159.09 g/mol.
One feature making 3,4,5-Trifluorobenzonitrile noteworthy relates to its combination of electronegative fluorine atoms with the benzonitrile core. The result is a compound with greater resistance to degradation, higher selectivity, and powerful reactive behavior in coupling reactions. Safety information details in SDS and MSDS highlight its harmful and hazardous qualities—common to raw nitrile materials—calling for responsible handling. It’s best to store and use the material in ventilated environments, using gloves, goggles, and protective clothing. Emergency response policies point to immediate washing if skin or eye contact occurs.
China supplies most of the world’s 3,4,5-Trifluorobenzonitrile, with manufacturers in Jiangsu and Zhejiang provinces shipping at large scale to Europe, Southeast Asia, and North America. Factories here leverage mature production lines and competitive factory prices, so the market often finds the most stable, affordable sources coming from these regions. Standard packaging includes 25 kg fiber drums or 200-liter barrels to suit both large-scale and research needs.
Reliable suppliers provide documents—REACH registration, ISO certification, SGS and OEM audits, and halal or kosher certification where required. HS Code for customs: 2926909090 facilitates global trade and avoids confusion at the port.
Scientists use 3,4,5-Trifluorobenzonitrile as a building block for active pharmaceutical ingredients, crop protection molecules, and advanced electronic functional materials. In drug discovery, it helps synthesize kinase inhibitors and antifungal agents. In electronics, it forms part of advanced OLED and liquid crystalline displays. Lab technicians prefer its tight specification range—purity (≥99%), color (colorless to pale yellow liquid), and melting point (33-36°C)—to ensure quality control.
Buyers usually request quotes based on CIF or FOB terms, depending on urgency and freight considerations. MOQ often sits around 1 kg for research, scaling to metric tons for industry. Most suppliers now offer free samples, letting QC labs verify composition before larger purchase orders. Advanced inquiries go through the sales team, who provide updated market news, government policy changes around export, or unexpected transport delays.
From my own experience navigating chemical procurement, a well-documented MSDS and reliable certification open doors for new projects. Buyers get peace of mind knowing every batch meets safety, environmental, and application needs. Forward-looking solutions could push China suppliers further toward greener production routes, lower energy consumption, and more robust recycling policies—driven both by government regulation and demand for sustainable sourcing. If more manufacturers pursue ISO and TDS traceability alongside competitive pricing, the global footprint shrinks and customer trust grows. This product’s future will lean on both technical performance and transparent, responsible production.
