3-Methyl-4-Fluorobenzonitrile belongs to a class of substituted aromatic nitriles. Its structure packs a methyl group and a fluorine atom onto the benzene ring, finished with a nitrile group. This fine-tuned arrangement gives the compound several features needed in specialty chemical manufacturing. With a molecular formula of C8H6FN and a specific density around 1.17 g/cm³, it serves as a raw material in both research and industrial projects.
Its solid form usually appears as an off-white to light yellow powder with a high melting point. Chemists and engineers use 3-Methyl-4-Fluorobenzonitrile in pharmaceutical intermediates, agrochemical synthesis, and advanced materials. Its strong molecular structure allows for stability during storage and transport, an important trait in dense production chains. Demand often aligns with the needs of new drug discovery, functional material design, or fine chemical development.
Suppliers list HS Code 292690, which helps buyers navigate import and export rules. Safety data follows strict guidelines because, like many aromatic nitriles, this compound requires handling with care—refer to MSDS, SDS, and GHS for information on personal protective equipment and emergency procedures. Manufacturing sites follow ISO and SGS audits, with some facilities offering Kosher and Halal certification, further broadening its utility in regulated markets.
Production hubs across China lead in cost-competitive output, driven by advanced synthesis facilities and reliable raw material sourcing. Buyers find factory prices more appealing here, and many Chinese suppliers offer CIF and FOB options at key ports. By working directly with these factories, businesses save on material costs and often lower their overall lead time.
The logistics chain often includes OEM packaging, bulk drums, and ISO tanks for larger orders. Some suppliers will send free samples, which supports buyers looking to test before purchase. Purchasing managers typically inquire about minimum order quantity (MOQ). For 3-Methyl-4-Fluorobenzonitrile, most quotes reflect volumes of 1 kilogram or up, though smaller, custom-packed samples exist for R&D labs and testing teams. Trading information and pricing fluctuate with feedstock costs, regulatory policy updates, and shipping rates.
Compliance matters. Companies ask for full SDS, TDS, REACH, and ISO documents. Halal, Kosher, and other certifications verify compatibility with diverse end-use sectors. Some facilities invest in traceability systems, letting buyers check source purity or batch origin, a practice that builds trust and accountability. Global buyers know that a clear paper trail—from molecular structure to final packaging—protects investments and supports licensing goals.
Labeling as hazardous or harmful raw material means safety sits at the core of every step. Workers use gloves, goggles, and extractor hoods during weighing and transfer. Proper storage limits exposure to air, flame, or moisture. Regulatory trends continue pushing toward improved labeling, lower process emissions, and full traceability—factors that shape procurement policy and research strategy alike.
Purchasing teams send targeted questions: purity, batch specs, up-to-date MSDS, package size, lead time, and shipping documentation. Quotes often cover door-to-door delivery or preferred CIF/FOB terms. Skilled suppliers respond with transparent documentation, competitive prices, and clear after-sales support. These steps make the difference when scaling up or adding new molecules into the production line.
