Pyridin-3-ylacetonitrile shows up in many research and industrial shops looking for unique building blocks. This molecule, with the molecular formula C7H6N2, lands under HS Code 2933399090, part of the broad catalog of heterocyclic compounds. In daily use, labs and manufacturers lean on its chemical properties to push pharmaceutical development and new material synthesis.
This raw material offers a density around 1.13 g/cm³, making it easy to handle in both small-scale and large-scale batches. Chemically it holds some complex uses—its cyanide group (–CN) allows multiple reaction routes. You’ll see its structure described by NCCH2C5H4N, pointing to its flexible attachment point for further modification.
Shelf workers in China and overseas look for the MSDS—the material safety data sheet—before touching a bottle of it. Pyridin-3-ylacetonitrile can irritate skin and eyes, possibly harmful if swallowed or inhaled, so personal protective equipment goes beyond optional. The raw liquid is clear to pale yellow. Storage asks for cool, dry, and ventilated conditions. Listing this chemical as hazardous matters: understanding risk saves money and lives, gets you compliant with REACH and GHS labeling, and keeps accident rates down.
Mainland China supplies a majority of the world’s pyridin-3-ylacetonitrile, backed up by a robust manufacturing base and export chain. Every year, dozens of OEM-certified factories expand their catalog. New buyers make purchase inquiries through international B2B sites asking about minimum order quantity (MOQ), free sample availability, and quotes at CIF and FOB terms. With more than a decade spent comparing factory price lists, I’ve seen global suppliers offering “for sale” notices at rates below other regions—competition pressures margins, but opens up more deal options for end users. Certification for ISO, SGS, halal, and kosher come up in any big contract now, a mark of trust and necessity as buyers navigate raw materials sourcing in tighter regulatory climates.
As China’s chemical policy keeps evolving, suppliers watch compliance deadlines on REACH and local environmental requirements. A solid supplier not only presents a chemical, but also complete SDS and TDS packages on demand, including recent test data, material specifications, and use cases.
Pyridin-3-ylacetonitrile performs reliably as a precursor for pharmaceutical intermediates, specialty solvents, crop protection agents, and liquid solutions where customized modification pays off. Synthesis teams tweak its structure to push new drug registrations or patent filings, chasing after cost savings and IP advantages. I’ve noticed more labs switching to China supply after seeing both lower factory price and better MOQs—production plants close to raw material sources cut freight and help push products out for pilot batches.
Inquiry and purchase cycles tend to run fast, especially when material is on the hazardous list. Regular policy checks, inspection by OEM and QA teams, and updated certification for REACH and ISO standards clear most of the hurdles. End users expect detailed product documentation, including references to specific density, melting and boiling point, and structure analysis—for every batch, not just the initial order.
Responsible use of pyridin-3-ylacetonitrile comes down to knowledge and solid factory controls. Company teams demand up-to-date documentation with every inquiry, and audits from SQC or SGS keep processes on track.
Supplying pyridin-3-ylacetonitrile takes more than a low quote. Buyers weigh MSDS details, test free samples, and cross-check for Halal or Kosher certification before shaking hands. That’s where Chinese suppliers stay competitive—they fill out every line with up-to-date policy and lab data, building trust batch by batch.
