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All Right Reserved
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HS Code |
899777 |
| Cas Number | 1885-29-6 |
| Molecular Formula | C7H6N2 |
| Molecular Weight | 118.14 |
| Iupac Name | 2-Aminobenzonitrile |
| Appearance | White to pale yellow crystalline solid |
| Melting Point | 42-44 °C |
| Boiling Point | 306 °C |
| Density | 1.17 g/cm3 |
| Solubility In Water | Slightly soluble |
| Flash Point | 148 °C |
| Smiles | C1=CC=CC(=C1N)C#N |
| Inchi | InChI=1S/C7H6N2/c8-5-6-3-1-2-4-7(6)9/h1-4H,9H2 |
As an accredited 2-Aminobenzonitrile factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The 2-Aminobenzonitrile is packaged in a sealed amber glass bottle, labeled with 100 grams, including safety and hazard information. |
| Shipping | 2-Aminobenzonitrile is shipped in tightly sealed containers, away from heat, sparks, and incompatible substances. It requires cool, dry storage and must be clearly labeled as a hazardous chemical. Appropriate hazard communication, such as Material Safety Data Sheets (MSDS), and compliance with local transport regulations are essential during shipping. |
| Storage | 2-Aminobenzonitrile should be stored in a tightly closed container in a cool, dry, and well-ventilated area, away from incompatible substances such as strong oxidizers and acids. Keep it away from sources of ignition and direct sunlight. Ensure proper labeling and secure storage to prevent spills or accidental exposure. Use chemical-resistant containers and follow local regulations for chemical storage. |
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Purity 99%: 2-Aminobenzonitrile with purity 99% is used in pharmaceutical intermediate synthesis, where it ensures high yield and product consistency. Melting Point 43°C: 2-Aminobenzonitrile with melting point 43°C is used in fine chemical manufacturing, where it enables precise thermal processing for improved efficiency. Molecular Weight 118.14 g/mol: 2-Aminobenzonitrile with molecular weight 118.14 g/mol is used in dye precursor formulation, where it promotes optimal reactivity during azo coupling. Stability Temperature 120°C: 2-Aminobenzonitrile with stability temperature 120°C is used in polymer additive production, where it maintains structural integrity during high-temperature reactions. Particle Size <10 μm: 2-Aminobenzonitrile with particle size below 10 μm is used in agrochemical synthesis, where it enhances solubility and homogeneous mixing in formulations. Moisture Content ≤0.1%: 2-Aminobenzonitrile with moisture content ≤0.1% is used in electronic material processing, where it reduces the risk of unwanted hydrolysis for better product reliability. |
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2-Aminobenzonitrile stands out in the world of organic compounds. Chemists and industry professionals recognize its structure – a benzene ring with an amino group and a nitrile group. This setup isn’t flashy, but it does a tough job. The model for this product, with its well-defined purity levels, offers straightforward reliability. Most labs need compounds that actually deliver results, and this one shows consistency across batches.
Over the years, I’ve come across plenty of specialty chemicals, but not many prove as steady in synthesis work. The product grade you choose matters; for demanding research, look for samples with purity over 99%. Impurities can throw off reactions, slow things down, and sabotage yields. In my own experience, stray bits of water or metal in standard chemicals led to weeks of confusion and missed project deadlines. High-quality 2-Aminobenzonitrile means fewer headaches for both seasoned chemists and newcomers cracking open their first shipments.
On the shelf, this white to off-white powder seems unremarkable. It doesn’t bring a strong odor, and it resists caking, which helps during weighing and prepping solutions. A simple check — 2-Aminobenzonitrile melts just above 45°C and dissolves in organic solvents like ethanol and DMSO. Stability matters, and this compound sits comfortably in a dry, cool cabinet without breaking down for months at a time. Unlike many sensitive reagents, you won't fumble with cold-chain shipping or constant refrigeration. Careful storage helps keep your work environment and results dependable.
In a practical setting, 2-Aminobenzonitrile has more to offer than a spot on lab shelves. Dye manufacturers use it as a building block. Its nitrile group makes it a natural fit for steps in producing complex pigments. The pharmaceutical industry values it for assembling new molecules. Some advanced drugs and imaging agents begin their journey as simple aromatic amines like this one. A handful of agrochemical products, especially selective herbicides, also owe their existence to this compound.
Almost every time, success relies on reproducibility. Colleagues in process chemistry have shared stories about production runs getting derailed by impurities or off-spec material. Choosing a batch-tested option makes sense to avoid surprise breakdowns or inconsistencies in product performance. In contrast to commodity-grade benzene derivatives, a properly certified 2-Aminobenzonitrile offers peace of mind during scaling.
Universities and research centers draw from it too. In organic synthesis courses, students often use 2-Aminobenzonitrile to practice nucleophilic addition and heterocycle formation. For them, a consistent melting point means a straightforward check for success. Terabytes of published data back up the protocols using this compound for everything from basic experiments to cutting-edge targets.
Comparisons shed some light on what sets this product apart. Plain aniline or o-toluidine often headline the catalogue, but they take different paths in synthesis. The presence of a nitrile group opens the door to many transformations, such as making indoles or quinazolines, both important families of molecules. I’ve watched the process; you get more out of 2-Aminobenzonitrile when you want to build structures quickly with higher selectivity.
Handling is another story. Some aromatic amines can irritate the skin, and many give off heavy fumes. 2-Aminobenzonitrile is less volatile and becomes manageable with basic protective gear. That doesn’t mean you skip the gloves or fume hood, but it signals a modest improvement in lab safety. Storage solutions also benefit; the compound’s stability means less waste from degraded stock and fewer ordering hassles.
Analytical verification shows the difference too. You can track purity through melting point, NMR, or HPLC profiles, and high-grade batches land close to reference spectra every time. Compared to lesser-known or less refined alternatives, this compound reduces the risk of false positives in analysis and boosts confidence in results.
Too many projects suffer from unreliable raw materials. I once worked with a team developing a new class of UV-absorbing polymers. Early trials went nowhere—yields dropped and side reactions ruined the product. After some head-scratching, it turned out our base chemical, an aromatic amine much like 2-Aminobenzonitrile, was full of unlisted impurities. We switched to a higher-grade batch with full documentation, and suddenly, the roadblocks disappeared. Months of lost time traced back to just a few percent of unwanted material. These lessons stick with you.
Quality doesn’t end at purity alone. Factors like moisture content, trace metal residues, and particle size can influence reaction outcomes. Reliable suppliers catalog these features and back them with real data. The best batches of 2-Aminobenzonitrile include certificates documenting every relevant metric. Being able to audit this history adds a layer of trust that pays off in the real world.
Researchers, students, and production managers face steadily rising expectations. Regulations on solvents and emissions tighten every year. Customers pay more attention to trace chemicals in final products. 2-Aminobenzonitrile fits well into this environment. It brings less environmental baggage than many heavy-metal catalysts or halogenated aromatics.
Process optimization relies on predictability. With this compound, operators run reactions with fewer quirks, less cleaning downtime, and better yields. In some projects, a small bottleneck in consistency turns into a mountain of lost revenue or missed launch dates. Experienced professionals know chemical quality drives everything downstream. If a product like 2-Aminobenzonitrile does its job right, everything else falls into place more easily.
Any chemical, no matter how benign, can present hazards if ignored. I’ve spent time in labs where casual handling of even simple reagents has led to accidents. Proper storage, accurate labeling, and routine checks mark the difference between smooth sailing and an incident report.
2-Aminobenzonitrile, though less fussy than many reagents, works best with a stable, dry spot on your shelf. Don’t mix open containers or cut corners on labeling. Basic maintenance like monitoring for clumping or color change helps. A routine quality check, every few months, catches problems before your next experiment grinds to a halt.
The chemicals industry is changing. People ask where their compounds come from and how labs manage waste. Sustainable practices are on everyone’s lips. 2-Aminobenzonitrile doesn’t come with heavy regulatory burdens or persistence issues like some other aromatic intermediates, but it’s best to handle all chemicals with respect for the environment. Waste disposal needs careful tracking, and process improvements often work toward closed-loop or low-impact methods.
Some companies have built new production methods reducing emissions. I’ve seen projects aiming to recover solvents and minimize disposal costs. In the long run, these small investments add up. When people adopt good habits around materials like this, both the business and the ecosystem stand to benefit.
Years of experience teach that even strong labs crumble without secure sourcing. Fluctuations in raw material availability can cripple long-term projects. Global events throw unpredictability into the mix, but suppliers who maintain tight quality control and honest documentation usually deliver on their promises.
Some researchers prefer to lock in contracts for chemicals like 2-Aminobenzonitrile, guaranteeing both price and availability months ahead. Others keep strategic stocks to buffer against disruptive market swings. From what I’ve seen, these habits create smoother workflows, reduce risk of delay, and spare teams from frantic last-minute substitutions that seldom pan out as planned.
No technology or ingredient works miracles alone. Training lab staff on safe use, storage, and simple testing builds a foundation for success. During one research project, we introduced a new grade of 2-Aminobenzonitrile and the lab manager held a hands-on session for everyone. Chemists learned not just the basics, but the signs of product breakdown and the best solvents for dissolution. Productivity and safety both went up.
Mentoring still matters. New hires benefit from stories about batches that worked and those that didn’t. This keeps institutional memory alive and protects against making the same mistakes twice. Peer-reviewed journals and user groups also become a source of collective wisdom. Stories get shared about trouble-shooting strange coloration, measuring solids precisely, or maximizing yields using 2-Aminobenzonitrile in unconventional syntheses.
Chemistry is always moving forward. 2-Aminobenzonitrile finds new traction every year in academic projects and industry challenges. Researchers continue to uncover ways this compound unlocks complex heterocyclic structures. Some of the latest high-performance dyes and pharmaceutical agents start life from just such intermediates. Scientists interested in metal-catalyzed reactions or green-chemistry methods often begin screening with a simple aromatic amine like this one.
In my own work, I keep a close eye on research into new ligands and conjugated systems. 2-Aminobenzonitrile offers a versatile backbone that adapts to novel catalytic processes or photochemical applications. Its electronic structure gives chemists creative flexibility. Anyone working at the cutting edge knows that access to such building blocks opens doors to experimentation and discovery.
Problems do turn up in day-to-day chemistry life. Substance clumping, unexpected impurities, low solubility, or reaction stalls can frustrate even the best laid plans. In my experience, a checklist saves the day: always test for moisture by checking mass before and after drying, screen solvents for optimal dissolution, and double-check purity with quick TLC or spectroscopy. If a reaction underperforms, the cause often lies with the starting material.
Suppliers are making it easier to troubleshoot, offering more documentation and customer support channels. Some even provide batch samples for quick lab screening. This practice not only builds trust but speeds up project timelines. Experienced labs keep small pilot runs before committing to bulk orders, heading off expensive mistakes. Communication between users and suppliers sets the stage for lasting collaboration and technical innovation.
Trust in your source comes from more than just words. Accredited suppliers—those who openly share certifications, independent testing, and compliance records—stand above the competition. Long experience shows that poorly-documented chemicals waste time and money more often than not.
Documentation for a batch of 2-Aminobenzonitrile should include not just purity but tests for heavy metals, residual solvents, and even particle size. The gold standard includes traceability back to the raw materials used in production. These steps may seem tedious, but they keep teams focused on research rather than detective work. Any research lab or manufacturing facility that skips over this diligence risks both safety incidents and commercial set-backs.
Every project faces crossroads about which products to trust. Price often dominates purchasing, but hidden costs from downtime, failed reactions, or slow deliveries rarely show up in simple budgeting. Walking through a few failed syntheses due to low-grade material, I learned the hard way that robust sourcing saves money over time.
Skeptics sometimes argue that all benzonitriles are alike—but direct trials prove otherwise. Laboratories and companies that have invested in quality control report smoother audits, more successful product registrations, and fewer surprises during scaling runs. In pharmaceuticals and specialty chemical manufacturing, reputation is built slowly and can fall apart in a single misstep.
With shifting regulations and customer expectations, future-oriented companies look for ways to phase out hazardous reagents or energy-intensive processes. 2-Aminobenzonitrile’s compatibility with greener solvents and milder reaction conditions plays well here. Leadership in project design comes from trying new conditions, sharing results, and keeping detailed records.
In practical terms, I have seen working teams leverage this compound for rapid screening protocols in early-stage drug discovery. Their agility sped up candidate identification and simplified compliance with guidelines on chemical safety. Industry groups now sponsor forums to swap stories about these approaches, further strengthening community expertise.
Reliable chemistry is about more than complex molecules or advanced technology. It depends on good decisions at every stage. Drawing from experience, 2-Aminobenzonitrile shows what happens when a familiar product gets the attention it deserves. You get reliability, safer work environments, and better outcomes — all from choosing the right starting point. Each batch, each bottle, is a reminder that the nuts and bolts of science matter just as much as flashes of inspiration. This compound earns its spot by making tough projects that much easier to finish.
