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HS Code |
407649 |
| Product Name | 2-Bromo-6-Chlorobenzothiazole |
| Cas Number | 16648-35-4 |
| Molecular Formula | C7H3BrClNS |
| Molecular Weight | 248.53 g/mol |
| Appearance | Light yellow to brown powder |
| Purity | Typically ≥98% |
| Melting Point | 120-124°C |
| Solubility | Slightly soluble in water, soluble in organic solvents |
| Density | 1.7 g/cm³ (estimated) |
| Storage Conditions | Store in a cool, dry place; keep container tightly closed |
| Canonical Smiles | C1=CC2=C(C(=C1Cl)Br)SC=N2 |
| Inchi | InChI=1S/C7H3BrClNS/c8-5-3-4(9)1-2-6-7(5)11-10-6 |
As an accredited 2-Bromo-6-Chlorobenzothiazole factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
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2-Bromo-6-Chlorobenzothiazole stands out in a field crowded with similar benzothiazole derivatives. Far from just being another reagent, it brings a unique mix of halogen substitutions that expand its range of use. At a glance, the model C7H3BrClNS doesn’t just sound catchy—it reflects how chemists keep stretching the usefulness of the benzothiazole scaffold. Gaining access to dual halogen substitutions changes the game for pharmaceutical research, agrochemical development, and specialty material design.
Not every benzothiazole derivative offers the same set of reactivity and selectivity as 2-Bromo-6-Chlorobenzothiazole. You don’t have to be an expert to notice how the bromine and chlorine at positions 2 and 6 deliver two very different reactive handles. Those chemists who look for ortho-electronic effects can use this pattern to perform cross-coupling reactions that weren’t possible with mono-halogenated rings. Instead of being boxed in by limited reactivity, researchers enjoy more ways to attach functional groups, which matters a lot when developing complex molecules for real-world results.
Purity can’t be overlooked, especially in reactions where by-products lead to real headaches downstream. Quality control of 2-Bromo-6-Chlorobenzothiazole sets it apart from bulk-grade chemicals that might not live up to their label. In my own lab experience, even small impurities wrecked batch yields and forced teams to repeat whole procedures. Products with certificates of analysis—ideally with HPLC percentages and spectroscopic confirmations—bring actual value, not just peace of mind. That assurance lets research and production teams focus on what matters, not troubleshooting unexplained side reactions.
2-Bromo-6-Chlorobenzothiazole isn’t just another building block gathering dust on a shelf. In medicinal chemistry, it acts as an entry point for making kinase inhibitors, antiviral scaffolds, and other heterocyclic compounds. The benzothiazole moiety is already a familiar sight on drug candidates and imaging agents. With two halogen positions, this compound simply lets chemists go further—tuning electronic and steric properties more precisely. Cross-coupling methodology, such as Suzuki and Buchwald-Hartwig reactions, becomes less limited. That flexibility translates to more shots on goal during structure-activity relationship studies, which can speed up go/no-go decisions.
Talking to others working with agrochemicals, 2-Bromo-6-Chlorobenzothiazole often finds a spot in the early or late stages of synthesizing fungicides and herbicides. Agrochemical pipelines don’t have time for unreliable intermediates. Here, this compound offers robust performance and shelf-stable handling. For those sensitive to workflow interruptions, it’s valuable to know their intermediate can survive storage and fluctuating humidity.
The world isn’t short of halogenated benzothiazoles. 2-Bromobenzothiazole, for example, gives just one functional handle at position 2. Play around with only chlorine at position 6, and chemists lose out on the versatility offered by bromine, which opens doors to milder and more tolerant couplings. Dual substitution on this scaffold means practitioners don’t have to jump through synthetic hoops to install a second reactive center. The result is less time spent on protection/deprotection cycles and fewer steps, which saves both money and effort in complex projects.
Whoever’s had to order custom derivatives knows the price jumps when a compound requires extra synthetic manipulation. 2-Bromo-6-Chlorobenzothiazole reduces the need for multi-step pre-functionalization. That’s not just convenient for a research chemist; in a commercial setting, it brings down the cost per gram for critical intermediates. Plenty of companies perform cost analysis before picking a synthetic route, and this kind of efficiency makes those decisions easier.
Outside of the catalog description, experience with benzothiazoles shows they tend to be solids—easy to weigh and often manageable on benchtop scales. While some halogenated aromatics suffer from rapid degradation or stubborn hygroscopicity, 2-Bromo-6-Chlorobenzothiazole typically gives reliable handling. It packs, ships, and stores with relative ease—simple but critical traits when coordinating multi-user labs. Of course, lab hygiene matters, and it pays to avoid moisture ingress or contamination from glassware. But compared with more volatile or unstable heterocycles, this one doesn’t force radical changes to standard protocols.
Any compound containing both bromine and chlorine raises legitimate questions about environmental persistence and regulations. It’s not enough to claim a compound works wonders in the flask if disposal puts downstream headaches on waste management or the local community. My view is that chemists shoulder some responsibility here—using such reagents with care, measuring real use, and adopting best practices for neutralization and disposal.
In my time overseeing a teaching laboratory, students sometimes overlooked the importance of glove use and fume hood operation, assuming that benign-sounding compounds deserved less respect. In the case of 2-Bromo-6-Chlorobenzothiazole, the standard rules apply. Good ventilation, personal protective equipment, and careful labeling shore up safety standards. Chemical manufacturers that support transparent safety data and disposal instructions earn more trust—especially as oversight intensifies in commercial work.
Procurement specialists and lab heads talk a lot about traceability these days, especially since supply chain hiccups make headlines. Being able to track a bottle of 2-Bromo-6-Chlorobenzothiazole batch by batch, down to the source material and production conditions, leads to better project management. Certification documents, batch records, and analytical reports help users fend off unexpected deviations. Labs with ISO accreditation or GMP compliance keep an eye out for material that offers clear documentation. Personally, I’ve seen enough projects derailed by last-minute substitutions—so a well-documented chemical hands over more than mere stock.
Sustainability is not just buzzword bingo anymore—regulators and end users really care about the footprint of the chemicals they introduce into cycles. Products like 2-Bromo-6-Chlorobenzothiazole will get more scrutiny in the coming years, as those in chemical purchasing and R&D look for greener syntheses. Some vendors are already tuning manufacturing routes to cut down on waste byproducts and improve atom economy. Chemists working upstream should take note of eco-profile certifications, lifecycle analyses, and support recycling where possible.
Better test results don’t just serve quality managers—they matter to everyone connected with the supply chain. High-performance liquid chromatography (HPLC), nuclear magnetic resonance (NMR), and mass spectrometry offer rock-solid proof of purity. In the rare event I’ve received an off-spec product, a few quick checks with these techniques either confirmed a vendor’s claim or uncovered a problem that called for a new batch. Labs should ask for this information up front. Whenever vendors shy away from providing it, that’s usually a red flag.
Industries change faster today than ever before. In my own career, the leap from small-scale organic synthesis to automated flow reactors brought new requirements for intermediates. 2-Bromo-6-Chlorobenzothiazole’s physical properties—moderate melting point, good solubility in organic solvents—fit well with flow setups. It’s easier to dose, doesn’t tend to clog lines, and remains compatible with many process solvents. Production engineers appreciate those compounds that don’t force equipment redesign, and this fits that mould.
Years of troubleshooting bench chemistry have shown me that people naturally gravitate toward compounds that deliver results, save time, and avoid drama. 2-Bromo-6-Chlorobenzothiazole sits high on that list when quick modification of the benzothiazole core can make the difference between a stalled project and one that transitions to scale-up. Lab managers I’ve worked with tell a similar story—quick access to high-purity reagents unlocks project bottlenecks. It’s not just a matter of what’s on the data sheet—it’s who stands behind the product and whether problems can be solved quickly.
Not every project takes the same amount of intermediate. Research groups explore reactions at milligram scale; kilo labs and manufacturing lines ramp up to tons. Consistency across scales is no afterthought. Having used plenty of benzothiazole derivatives at various scales, I’ve seen inconsistency cause delays, translation problems, and wasted investment. The best suppliers communicate about attainable batch sizes and whether they can adapt to sharp changes in demand. In competitive contract manufacturing, being able to count on the uninterrupted supply of 2-Bromo-6-Chlorobenzothiazole makes the difference between keeping a contract and losing it.
The actual bottle of 2-Bromo-6-Chlorobenzothiazole in a fridge or on a shelf is only part of the story. From my own journey, the biggest relief comes from knowing there’s a support network—technical, regulatory, and application-focused—backing things up. Whenever questions come up about reaction conditions, solubility limits, or analytical troubleshooting, direct access to a human expert can make an hour’s problem a five-minute fix. Companies that invest in responsive support earn loyalty in a fiercely competitive market. Whether working with startups, academic labs, or bigger pharma, people appreciate knowing backup exists.
The world of chemical intermediates doesn’t stand still. I’ve attended enough conferences to see that real advances come when manufacturers heed direct feedback from those using products in the field. Purification tweaks, better packaging, and more robust analytical certificates respond to real pain points, not just fly-by-night trends. With increased focus on regulatory acceptability, vendors address trace impurities or offer improved technical notes. Every time these improvements land, they save time, reduce risk, and trim down paperwork headaches for researchers down the line.
The benzothiazole ring carries certain spectroscopic signatures—a relief to anyone relying on NMR, IR, or even X-ray crystallography for structural confirmation. 2-Bromo-6-Chlorobenzothiazole’s dual halogen pattern offers easily interpretable signals that help R&D confirm that what they made is what they meant to make. In one of my projects, confusion over a mono-halogenated product led to wasted weeks until more careful spectral analysis exposed the mix-up. Using this compound cuts down on those concerns, because having two distinct halogen substituents allows for faster, cleaner identification during quality control steps.
There’s a certain satisfaction in finding an intermediate that lets you step over synthetic barriers without incurring a tangle of reactions. 2-Bromo-6-Chlorobenzothiazole doesn’t just fill a gap—it lets chemists produce diverse end products with less risk, fewer steps, and a clearer path to high-value targets. Everyone from undergraduates to industry veterans recognizes the benefit of reliable tools. Judging from my own experience on both sides of the supplier and buyer equation, time saved during synthesis translates to faster development and more confident delivery to stakeholders.
In today’s chemical market, transparency about sourcing, specifications, and performance always matters. 2-Bromo-6-Chlorobenzothiazole offers more than just another option on the reagents shelf. It solves problems around reactivity, cost, and scalability that chemists confront daily. Vendors that invest in clear labeling, honest specifications, and meaningful support stand out as trusted partners rather than mere suppliers. Over the years I’ve worked in research and development, I’ve come to place more value on these elements than on any temporary pricing discount or promotional pitch.
As new fields open up—organic electronics, sustainable agro-inputs, next-generation pharmaceuticals—chemical intermediates like 2-Bromo-6-Chlorobenzothiazole will only grow in importance. It’s worth remembering that what works in today’s lab could be tomorrow’s essential building block for an FDA submission, a new environmental sensor, or a next-gen crop protection tool. Instead of playing catch-up, research groups secure their pipeline and confidence with compounds that perform on multiple fronts.
Nobody wants to go back to a time of hand-written batch records and spotty supply. At the same time, the push for standardization shouldn’t stifle innovation or responsiveness. 2-Bromo-6-Chlorobenzothiazole’s robust profile—it’s proven synthesis, dual-reactive nature, solid handling—has a track record of answering both traditional and cutting-edge research questions. Being able to depend on one compound for so many diverse applications speaks volumes about its underlying utility.
Over decades of work in lab and industry settings, the story repeats: dependable, well-characterized intermediates pave the way for fast progress and innovative breakthroughs. 2-Bromo-6-Chlorobenzothiazole brings more than just another halogenated benzothiazole—its unique substitution pattern, straightforward handling, and proven performance make it an asset wherever chemists care about precision, flexibility, and scalability. The market will bring more derivatives tomorrow, but true value sticks with products that solve real problems and deliver on their promise season after season.
