Chemical industries keep an eye on niche compounds for both safety and efficiency. 2-Propanol, 1-chloro-, (2R)- entered the conversation as a chiral derivative of isopropanol, with an added chlorine atom at the 1-position, and the (2R) denotes its specific optical activity. This compound sits under the HS Code for organochlorine chemicals, reflecting its use in synthesis, pharmaceuticals, and specialty reactions. People handling this compound know its formula well: C3H7ClO. Molecular weight lands around 94.54 g/mol, which may not seem heavy, but that extra chlorine atom makes a clear difference in handling and hazard profiles.
The chemical backbone of 2-Propanol, 1-chloro-, (2R)- features a simple carbon chain with a hydroxyl group (-OH) attached to the second carbon, and a chlorine atom replacing a hydrogen at the end of the chain. Due to the steric arrangement around the (2R) chiral center, only certain synthetic pathways can yield the right configuration. In its pure form, this compound comes in various physical appearances: sometimes as a clear liquid, sometimes a crystalline solid, and under certain temperatures as a colorless powder or fine flakes. Specific gravity hovers near 1.1 g/cm3 at 20°C—a touch denser than water thanks to the chlorine. It mixes moderately with polar solvents, dissolving faster in ethanol and ether than in plain water, a feature synthetic chemists often exploit when designing new molecules.
2-Propanol, 1-chloro-, (2R)- is sought after as a starting material for various fine chemicals and pharmaceutical intermediates. The material can show up in laboratories as a raw ingredient packaged in glass bottles, metal drums, or sealed plastic containers, depending on the volume. Labs check for purity, enantiomeric excess, and impurity content, as minor contaminants can ruin downstream reactions. Unlike bulk solvents, this is not the stuff found mopping up bench spills—think more along the lines of selective transformations where its molecular shape and reactivity enable the buildout of drug scaffolds or agrochemical building blocks. Still, danger tags are slapped on every bottle, and lab workers trade strict advice about not letting the stuff touch skin or get into the eyes because it can irritate and may be harmful by inhalation.
People respect 2-Propanol, 1-chloro-, (2R)- for a reason. The presence of a chlorine atom raises both health and environmental concerns. It counts as a hazardous material under several chemical safety regimes. Breathing in the vapor, especially in closed areas, can upset the respiratory system, and liquid spills call for gloves and well-fitted goggles, not shortcuts. Its solid forms—flakes or powder—spread easily in air, and industrial hygiene protocols require dust masks and good local exhaust ventilation. Accidental contact with skin can lead to irritation or, in rare cases, allergic responses. Disposal methods follow strict protocols, as improper dumping adds organochlorine waste to the environment, which persists for years. Material safety data sheets (MSDS) and clear hazard symbols support risk management, and most facilities keep spill kits on standby next to every workbench handling this raw material.
Raw material management for this compound often means secure, fireproof storage areas, given its combustibility under certain conditions. Storage containers must use compatible linings to prevent gradual leaching or corrosion from the chlorinated compound. Shipment uses UN-approved drums marked for hazardous chemical transport, and customs authorities check accompanying documents for the correct HS Code. Inside warehouses, environmental controls keep humidity low, as moisture can encourage gradual decomposition or unwanted hydrolysis. Industry buyers look for suppliers with established quality control, track records for purity, and responsible supply chains—all increasingly crucial as regulations on organochlorine chemicals tighten across regions. Manufacturers examine source materials—often derivatives of propylene or isopropanol—seeking both price stability and ethical production chains.
Every workplace dealing with 2-Propanol, 1-chloro-, (2R)- benefits from regular safety drills and up-to-date chemical databases. Real experience says written procedures only work if everyone gets daily reminders about why wearing gloves, goggles, and using fume hoods matters. Monitoring air quality and securing waste means managers avoid larger hiccups like community exposures or regulatory fines. Best practices encourage chemists to use the least possible amount and seek greener substitutes for chlorine-containing chemicals where available. On the supply side, manufacturers can invest in closed-loop systems that reclaim and detoxify waste before disposal. Sharing successful strategies—like those seen in pharmaceutical pilot plants or leading chemical universities—builds a culture of respect and caution.
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