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HS Code |
234891 |
| Name | Indan-2-One |
| Chemical Formula | C9H8O |
| Molecular Weight | 132.16 g/mol |
| Cas Number | 615-13-4 |
| Appearance | White to light yellow crystalline powder |
| Melting Point | 64-68°C |
| Boiling Point | 262°C |
| Density | 1.16 g/cm³ |
| Solubility In Water | Slightly soluble |
| Smell | Characteristic aromatic odor |
| Purity | Typically ≥98% |
| Synonyms | 2-Indanone, Indanone |
| Storage Conditions | Store in a cool, dry place, tightly closed |
| Flash Point | 122°C |
| Refractive Index | 1.580 (at 20°C) |
As an accredited Indan-2-One factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 250g of Indan-2-One is supplied in a tightly sealed amber glass bottle, labeled with hazard warnings, supplier details, and batch information. |
| Shipping | Indan-2-One is shipped in tightly sealed, chemical-resistant containers to prevent leaks and contamination. It should be transported at ambient temperature away from sources of ignition, heat, and direct sunlight. Proper hazard labeling and documentation are mandatory, complying with relevant local, national, and international regulations for the safe shipment of laboratory chemicals. |
| Storage | Indan-2-one should be stored in a cool, dry, and well-ventilated area, away from direct sunlight and sources of heat or ignition. Keep the container tightly closed and properly labeled. Store separately from strong oxidizing agents, acids, and bases. Use appropriate chemical-resistant containers, and ensure secondary containment to prevent spills. Always follow local regulations and safety data sheet instructions. |
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Purity 99%: Indan-2-One with 99% purity is used in pharmaceutical intermediate synthesis, where high chemical yield and selectivity are achieved. Melting Point 58°C: Indan-2-One with a melting point of 58°C is used in specialty organic material processing, where enhanced thermal stability is maintained. Molecular Weight 132.16 g/mol: Indan-2-One at 132.16 g/mol is used in fine chemical formulation, where precise stoichiometry ensures consistent reaction profiles. Stability Temperature 120°C: Indan-2-One with a stability temperature of 120°C is used in high-temperature catalyst applications, where decomposition risk is minimized. Low Water Content <0.2%: Indan-2-One with water content below 0.2% is used in moisture-sensitive reaction systems, where unwanted hydrolysis is prevented. Particle Size <100 µm: Indan-2-One with particle size under 100 µm is used in dispersion formulations, where rapid dissolution rates are achieved. UV Absorbance 0.03 (at 254 nm): Indan-2-One showing a UV absorbance of 0.03 at 254 nm is used in analytical standard preparations, where accurate calibration is facilitated. Refractive Index 1.561: Indan-2-One with an index of refraction of 1.561 is utilized in optical polymer manufacturing, where transparency and optical clarity are optimized. Residual Solvent <30 ppm: Indan-2-One with residual solvent below 30 ppm is used in electronic grade coatings, where purity ensures reduced contamination. Boiling Point 259°C: Indan-2-One with a boiling point of 259°C is applied in chemical vapor deposition processes, where thermal endurance supports prolonged evaporative use. |
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Talking shop with anyone in organic chemistry or specialty manufacturing, you’ll notice how often the conversation turns to the bottlenecks and frustrations of sourcing the right intermediates. Over the years, I’ve seen the scramble – from scaling R&D to meeting an urgent production deadline. Indan-2-One shows up on those lists for a reason. We're not looking at an abstract concept here; chemists and engineers reach for Indan-2-One because its unique blend of reactivity, purity, and consistency gives them more room to maneuver in synthesis and design.
Indan-2-One (sometimes called 2-indanone) brings a simple but crucial structure to the table: an indane skeleton fused with a ketone at the 2-position. In practical terms, that little carbonyl group is a game changer for folks who need precise building blocks for pharmaceuticals, agrochemicals, or advanced polymers. There are plenty of organic compounds you could try, but Indan-2-One stands out because it reacts reliably at that spot, lets you build complexity without crazy side-reactions, and doesn’t clog up purifications with stubborn leftovers.
Looking back on the projects I've worked on in the lab, the difference shows up not only in the benchwork but in the real-world applications. A chemical that only pulls its weight on paper but flops in practice winds up costing teams hours and budgets. That's where Indan-2-One makes a difference: solid yields, manageable byproducts, dependable every time a new batch arrives on the loading dock.
For those who like to keep track, Indan-2-One is a small molecule, C9H8O, with a clean, white crystalline appearance – not the sticky or off-color stuff that sets off alarm bells. In my experience, this kind of consistency isn’t just a nice-to-have. Labs count on precise melting points and clear analytical profiles. Suppliers who skimp on purification or let impurities slide can leave you cleaning up a mess mid-synthesis. Indan-2-One routinely tests at high purity levels, with HPLC and NMR profiles that don’t give your analytical chemist headaches. You won’t spend your lunch break arguing with the supplier about what’s lurking in the side peaks.
In handling, this product keeps its cool under normal conditions. Modest toxicity means you still need the usual gloves and goggles, but nothing so exotic that it turns a routine synthesis into a regulatory nightmare. Its melting point offers a decent window for storage and weighing, dodging the maddening habit of some organics that smear or vaporize just when you need precision.
What makes Indan-2-One more than just another line in a catalog boils down to its real-world roles. Pharmaceutical chemists value how its rigid core and reactive carbonyl serve as a foundation for more complex scaffolds, like CNS-active agents or anti-inflammatory leads. I’ve watched it cut weeks from early-stage drug design, letting teams move straight into SAR (structure-activity relationship) work without endless prep steps. Folks in agricultural chemistry see similar time-savings, whether they build up new herbicides or tweak growth regulators. Polymer researchers notice how Indan-2-One helps introduce aromatic rigidity and defined functional groups into specialty materials, nudging properties in desired directions without nasty surprises.
One thing that sticks with me is feedback from a small group of graduate students slogging through process development for a contract job. They tested a range of starting materials, and only Indan-2-One hit all the marks: ease of use, high selectivity, few contaminants, and no awkward regulatory hoops. Their report lined up perfectly with what I'd seen over the years – when you want to move from grams to kilos, most off-brand intermediates run aground on cost or reliability. Indan-2-One just kept delivering.
It’s easy to dismiss these comparisons as sales talk until you’re elbows-deep in a synthesis that starts going sideways. Cyclopentanone, acetophenone, and substituted indanones all look attractive on paper – cheaper, easier to find, or boasting familiar reaction patterns. Yet, those small details in reactivity and purity crop up where it hurts. Acetophenone brings a different aromatic system and less ring rigidity, so it can let side reactions spiral. Cyclopentanone rarely gives the same level of predictable outcomes due to its more flexible structure. When a team needs high yields with minimal crosstalk from impurities, they turn to Indan-2-One and skip the headaches.
Another angle is scalability. Plenty of molecules behave well at milligram scale but collapse under bulk synthesis conditions. I’ve seen Indan-2-One weather the jump from lab bench to pilot plant with fewer surprises. Some competitors show up with beautiful data in the academic literature but start generating stubborn emulsions or unworkable tars under real-world processing. Laboratories don’t have the luxury of handholding intermediates every step of the way, so they count on materials that keep their promises across runs.
Working in both large and small organizations, the value of consistency can’t be overstated. A high-purity Indan-2-One ends up more cost-effective in the long run, despite a higher upfront quote. Teams who try to slice pennies off the per-kilogram cost quickly discover that troubleshooting low-grade materials, repeating failed reactions, and chasing down contaminants burns far more time and money. I've fielded enough panic calls from junior chemists wrangling odd spectra or inexplicable byproducts to know that the difference between “pure enough” and truly clean material is night and day.
Moreover, Indan-2-One’s relatively stable supply chain offers breathing room in an industry plagued by shortages and delivery delays. Production facilities appreciate avoiding toxic intermediates and notorious precursors, smoothing the paperwork for each shipment. Instead of stalling as regulatory checks drag on, buyers see steady throughput and real-time tracking—a rare comfort in today’s market.
No modern commentary should ignore the pressure for cleaner and safer chemistry. In the past, sourcing certain aromatic ketones meant dealing with dirty processes and hazardous precursors. Suppliers now prioritize greener, more atom-efficient synthetic routes for Indan-2-One, trimming down on harsh solvents and reducing hazardous waste streams. Teams show growing interest in renewable feedstocks and better catalytic cycles, knowing every improvement translates into fewer compliance headaches and improved community trust.
I’ve spoken with process engineers moving toward continuous flow manufacturing for Indan-2-One, eliminating batch inconsistencies and sharply reducing footprint. Open communication between chemical producers and end-users means challenges surface faster and get resolved quickly—be it solvent recycling, energy efficiency, or closed-loop systems for mother liquors. Responsible procurement isn’t just a buzzword anymore; it factors into every purchase order I’ve watched go out the door.
Discussing chemical supplies with industrial managers, I’ve heard that overlooked hazards or unexpected paperwork drive up hidden costs. Indan-2-One strikes a comfortable balance—sensible hazard precautions without the overwhelming regulatory drag seen with some of its aromatic relatives. Labels warn of skin and eye irritation, prompting the usual PPE, but don’t require the barriers, monitoring, or toxic waste protocols that chase away researchers and production teams alike.
Shipping managers also appreciate the manageable hazard class and robust packaging options. Indan-2-One’s stable solid state means it doesn’t require refrigerated trucks, temperature logging, or overweight bulk containers. These logistic benefits don’t just lower freight charges—they reduce the drama at customs or audits. On the receiving end, warehouse staff see a shelf-stable box of bottles instead of leaky, foul-smelling drums. Operations run smoother when every department knows exactly what to expect at every handoff.
Stepping up from academic synthesis to commercial volumes often exposes lurking flaws in a promising reagent. During one pilot project, a process team faced snag after snag scaling a different cyclic ketone, only to watch Indan-2-One pass the same hurdles with minimal fuss: no clumping, no intractable tars, no batch-to-batch headaches. Process analytics reported consistent IR and GC traces, predictably low water content, and trouble-free filtration. No managers want to rebuild their process flows every fiscal year; rare is the compound that survives transitions from the fume hood to the reactor room so smoothly.
Customization also plays into Indan-2-One’s strengths. Producers work with end-users to adjust shipment sizes, particle sizes, or packaging—sometimes down to custom blends for specialized catalysis. Experienced chemists expect and get rapid, transparent feedback from suppliers. This feedback loop guarantees that innovation at the bench translates quickly into industrial benefits, without leftfield restrictions or impossible minimum orders.
Looking back on several decades in research and manufacturing environments, specialty reagents that consistently solve problems, rather than cause them, become mainstays. Indan-2-One fits this description for a growing number of labs and production sites. Its well-characterized core structure, robust supply chain, and manageable physical hazards separate it from a crowded field of prospective intermediates. Each time a project wraps up ahead of schedule or avoids a batch recall due to impurity spikes, the value of reliable reagents becomes clearer.
Teams that once counted on legacy processes now weigh every input for safety, traceability, and environmental footprint alongside cost and reactivity. Indan-2-One stands up to these new pressures—with routine transparency in documentation, full batch traceability, and a clear shift toward greener manufacturing. In a world where oversight from clients, auditors, and regulators gets sharper each year, these strengths are far from cosmetic.
The specialty chemicals sector evolves fast and rarely in a straight line. Procurement officers and bench chemists alike push for safer, cheaper, and more sustainable sources. Indan-2-One suppliers respond with improved syntheses—shorter steps, better atom economy, solvent swaps toward environmentally benign options. Buyers see more information about environmental performance and life-cycle analysis. This arms both sides, buyers and sellers, to tackle not just routine orders but emergency pivots caused by disruption across global supply chains.
Academic partnerships also feed innovation in Indan-2-One chemistry. Synthesis method R&D, whether involving biocatalysts or recyclable catalysts, promises to further trim down costs and environmental impacts. International collaborations open up alternate routes using non-petroleum feedstocks, offering a path toward circular manufacturing. These initiatives might sound abstract, but their most visible outcome is pricing stability and security of supply. In times of raw material volatility, this means projects stay on target more often, supporting both small startups and established multinationals.
As more projects aim for regulatory approval or face heightened scrutiny from watchful agencies, uncertainty in intermediates becomes unacceptable. No one wants their project recalled or their manufacturing license delayed due to trace contaminants or unreliable sourcing. Indan-2-One, with its high documentation standards and regular third-party audits, ticks several boxes that matter most: safety, compliance, and consistency.
Lab teams have told me that other ketones become “problem children” under pressure. Drifting melting points, batches prone to odd colors, or unexpected reactivity all create risks. In contrast, Indan-2-One keeps its composure across a range of climate zones, age, and packaging styles. Quality control lives easier life: batch records, spectrum checks, and regulatory filings line up without repeated troubleshooting.
In the race to bring innovations from the idea stage to market, every lost day pivots to lost revenue. Reliable access to high-quality Indan-2-One supports the work of pharmaceutical teams chasing new molecules, agricultural researchers fighting crop threats, and electronics manufacturers refining performance targets in advanced materials. Removing obstacles in the supply chain and laboratory bench lets specialists do what they do best: solve problems and generate value.
In industry, the proof comes from lived experience and repeatable results, not just theoretical promise. Conversations with plant supervisors, lab managers, and procurement officers circle back to the same priorities: material that does what it says, arrives on time, and leaves no surprises in its wake. Indan-2-One answers those calls—from fifth-year PhDs to senior engineers—because it makes their work easier, safer, and more predictable.
The path forward leans on open communication and partnership. End-users demand clear test results, transparent documentation, and open lines with their suppliers. This cycle of feedback is already boosting product quality, inspiring new application research, and pushing for greener production. No one pretends it’s a finished process, but the bar keeps rising—and Indan-2-One keeps up, batch after batch.
Put side by side with competitors, Indan-2-One emerges as a clear favorite among demanding industries. Its performance doesn’t just ride on isolated test results or marketing talk—it holds up to daily scrutiny. Lab teams want simple ordering, reliable quality, and a product that keeps up with shifting priorities. Operations managers want shipment predictability and safety that blend into ordinary handling. Across sectors, the people in charge of making, testing, and delivering value turn to Indan-2-One to solve real-world problems. There’s comfort in knowing a product has your back, especially as challenges get more complicated in a changing world.
