|
HS Code |
608653 |
| Product Name | β-Ionone XLXT01 |
| Cas Number | 14901-07-6 |
| Einecs Number | 238-969-9 |
| Molecular Formula | C13H20O |
| Molecular Weight | 192.30 g/mol |
| Appearance | Colorless to pale yellow liquid |
| Odor | Violet-like, floral, woody |
| Purity | ≥95% |
| Boiling Point | 128-130°C at 15 mmHg |
| Flash Point | 110°C |
| Solubility | Insoluble in water, soluble in alcohol and oils |
| Refractive Index | 1.492 - 1.496 (20°C) |
| Density | 0.970 - 0.980 g/cm³ (20°C) |
As an accredited β-Ionone XLXT01 factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | β-Ionone XLXT01 is packaged in a sealed 1 kg amber glass bottle with a tamper-evident cap and clear labeling. |
| Container Loading (20′ FCL) | β-Ionone XLXT01, 20′ FCL: Packed in 180kg iron drums, total gross weight approx. 14.4MT, suitable for sea transport. |
| Shipping | β-Ionone XLXT01 is shipped in tightly sealed containers, protected from light and moisture. Standard packaging includes HDPE drums or aluminum bottles. The product is classified as non-hazardous, but should be handled according to safety guidelines. Ensure storage in a cool, well-ventilated area away from incompatible substances during transit. |
| Storage | β-Ionone XLXT01 should be stored in a tightly sealed container in a cool, dry, and well-ventilated area, away from direct sunlight and incompatible substances such as strong oxidizers. Keep at controlled room temperature and avoid exposure to moisture and heat sources. Proper labeling and secure storage are essential to prevent accidental release, degradation, or contamination of the chemical. |
| Shelf Life | β-Ionone XLXT01 has a shelf life of 24 months when stored unopened in a cool, dry, and well-ventilated area. |
|
Purity 98.5%: β-Ionone XLXT01 with 98.5% purity is used in premium fragrance formulations, where it ensures high olfactory note intensity and product consistency. Melting Point 33°C: β-Ionone XLXT01 with a melting point of 33°C is used in cosmetic creams, where it enables efficient blending and stability at room temperature. Molecular Weight 192.3 g/mol: β-Ionone XLXT01 of molecular weight 192.3 g/mol is used in food flavor enhancement, where it delivers precise flavor profile replication. Stability Temperature 60°C: β-Ionone XLXT01 with a stability temperature of 60°C is used in scented candle manufacturing, where it maintains aromatic integrity during production. Volatility Index 2.6: β-Ionone XLXT01 with volatility index 2.6 is used in personal care sprays, where it supports sustained fragrance release over time. Viscosity Grade Low: β-Ionone XLXT01 of low viscosity grade is used in detergent fragrances, where it allows easy formulation blending and uniform dispersion. Optical Purity ≥99%: β-Ionone XLXT01 with optical purity ≥99% is used in specialized pharmaceutical aromas, where it ensures effective chiral-specific interactions. Particle Size ≤5 μm: β-Ionone XLXT01 with particle size ≤5 μm is used in air freshener aerosols, where it achieves fine atomization and improved air diffusion. Refractive Index 1.498–1.504: β-Ionone XLXT01 with refractive index 1.498–1.504 is used in essential oil blends, where it guarantees compatibility and clarity. Residual Solvent <50 ppm: β-Ionone XLXT01 with residual solvent below 50 ppm is used in beverage flavoring, where it meets strict safety and quality standards. |
Competitive β-Ionone XLXT01 prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615371019725 or mail to sales7@bouling-chem.com.
We will respond to you as soon as possible.
Tel: +8615371019725
Email: sales7@bouling-chem.com
Flexible payment, competitive price, premium service - Inquire now!
β-Ionone XLXT01 has been developed on our production lines with both reliability and performance in mind. We took our decades of experience with ionone compounds and refined our methods, focusing on what really matters to perfumers and manufacturers—consistent purity, stable supply, and robustness in blending. The result is a material that goes beyond meeting lab standards. Every kilogram leaving our reactors reflects thousands of hours spent refining distillation temperatures, watching batch variances, and controlling feedstock quality.
Our process draws on highly selective catalytic isomerization, where batches are constantly monitored for by-product levels and off-odors. The color of XLXT01 comes out clean, with a slight yellow hue that meets the expectations of both traditional perfumery and industrial formulations. This isn’t just about what comes off a spec sheet; it’s the way hundreds of batches behave in the field that shapes our approach: neither flavor nor aroma chemists want second-guessing from their supplier.
As the original manufacturer, we’ve faced our share of supply chain pressures and shifts in regulatory focus. Some years, natural feedstocks tighten, or a change in compliance rules brings new scrutiny. We responded by updating purification protocols and doubling down on trace impurity analysis. Each step is backed by in-house GC/MS and validated by outside panels. This vigilance means that when formulators and QC officers sample a drum of XLXT01, results track batch after batch fit for fragrance creation, cosmetics, or even flavor development, wherever β-ionone’s woody, violet nuances unlock value.
Through direct relationships with major scent houses and FMCG manufacturers, we’ve fielded their questions: how does the material perform under high dilution? Will it hold up to heat? Will it shift profile in surfactants? Clients want something they can count on even during scale-up. Every answer comes from hands-on trial, never wishful thinking. Years ago, we ran joint studies with fragrance technicians under stressful blending conditions—not every supplier makes it through those checks. XLXT01 proved resilient, keeping chromatic stability and not drifting toward off-notes at higher temperature operations.
In industrial fragrance compounds, XLXT01 remains sought after for its enduring effect in both fine fragrances and everyday consumer goods. Home care applications such as laundry conditioners or floor polishes depend on its distinct floral-woody aroma, adding elegance while masking less pleasant base materials. Unlike some competitors, our variant doesn’t easily lose its structure in alkaline or acidic matrices—a direct result of our stepwise processing and fatiguing test cycles on new production batches.
Perfumers know β-ionone not just for the violet and cedarwood impressions, but for its amplifying character working alongside other aroma chemicals. XLXT01 finds itself in the core of “violet leaf” and “orris” profiles, extending volume and sillage where natural extract budgets won’t stretch. In fact, one prominent luxury perfume house cited our product’s batch-to-batch repeatability in interviews, pointing out how it keeps flagship fragrances consistent through changing crop years.
Our product also sees extensive use in food-contact and oral care products—always under relevant regulations and purity controls. We’ve worked closely with regulatory experts during material audits, ensuring heavy metals or unwanted oxidation by-products never reach end users. Real world experience made clear to us that relying on paperwork makes a poor substitute for daily QA—the kind built into every charge before reaching blending facilities worldwide.
Comparisons with off-the-shelf β-ionones really come down to hands-on experience under pressure. Generic products sometimes show strong initial aroma but fade quickly or develop side-notes under hot storage. We encountered this challenge years ago testing variant supplies from the open market. Instead of making excuses for odor drift, we retooled our fractionation steps. By stepping up catalyst quality and tweaking reflux rates, we saw a narrowing of the by-product window—a technical nuance, but one that matters in the world of fine fragrance and flavor where panelists notice every shift.
Other producers might aim for “one size fits all.” Our choice was different: we take longer to process, sometimes accepting smaller yields in favor of cleaner output. Yes, this raises short-term cost, but we discovered it keeps customer complaints and rejected loads to a minimum. Labs return later confirming our consistency, and supply partners see the difference in fewer supply chain surprises. This is the feedback loop of real manufacturing, not marketing fiction.
Clients have pointed out that some ionones from other sources arrive with residual solvents outside label claims, or worse, traces of unreacted precursors that shift the aroma. We built our solvent removal protocol to address these issues—not because we had to, but because we saw the impact in large-batch performance. Feedback from downstream users confirmed our approach; they saw cleaner “lift” in personal care formulas, and improved persistence—which is crucial for products that spend months on shelves in varied climates.
Global fragrance trends can change quickly. Not long ago, demand for phthalate-free bases caused ripple effects through the supply chain, with many looking to replace key notes and enhancers. We responded by modeling XLXT01 performance in new phthalate-free carrier systems, even running accelerated aging tests to generate data over six months. Results told a clear story to our technical team: this material would retain character even as legislation in major markets kept shifting.
In the flavor world, we’ve seen increased scrutiny regarding trace contaminants. Our team keeps close watch on EFSA and FDA developments, adapting purification steps as new guidance lands. We’ve invested in multi-stage distillation and deployed early-warning sensors to catch deviations before human panels ever notice them. Experience proves this pays off—one major beverage brand resolved off-note complaints after switching to XLXT01 as their core modifier in berry and grape profiles.
Experience has also shown that supply chain reliability underpins every customer relationship. COVID-19 and regional logistics challenges have taught us painful but valuable lessons about forward inventory planning and backup process streams. By shifting procurement to more diverse feedstock sources and upgrading our own bulk storage, we ensured XLXT01 shipments didn’t miss production deadlines—even during port delays and transport bottlenecks. Clients who rely on just-in-time manufacturing can’t gamble on variable suppliers; our primary commitment is stable, predictable shipments.
Our technical staff keeps things grounded in plant floor realities. Whether it’s doing weekly retention index checks for quality assurance, or running blind olfactory panels on random drum samples, we put in the hours to avoid surprises. Recent experience has shown us that pre-emptive maintenance and extra batch-level data logging leads to fewer supply issues and keeps client rejection rates vanishingly low.
Being closer to the production process helps us spot subtle cues—say, an uptick in minor optical isomers due to seasonal feedstock quality shifts. We’ve learned to spot these changes before they impact downstream aroma or flavor applications. When it comes to β-Ionone XLXT01, those details separate trusted suppliers from short-term entrants who come and go. The price of deep process knowledge and hands-on oversight shows itself over years, not just single quarters.
Sustainability weighs on many buyers today, from green chemistry initiatives to energy efficiency concerns. We took early steps to install closed loop solvent recovery and heat integration throughout our ionone plant, significantly reducing both emissions and operating costs. Such investments rarely pay off in the first year, but in the long view they keep our footprint manageable and meet the rising requirements of our multinational partners.
Quality isn’t just tested at the end of a batch. Our operators log real-time data at every step, giving us the power to correct issues fast. This strict process transparency, matched with regular third-party validation, supports everything from regulatory compliance to customer assurance. We learned the hard way, after a difficult incident involving cross-contamination years ago. Instead of hiding the problem, we changed raw material tracking and enforced new cleaning cycles—today, batch failures are a rare exception, not an accepted risk.
Our R&D team continues to experiment. Not every trial leads to a breakthrough, but there have been real advances, like slower step-up temperatures during isomerization, which helped reduce by-products without introducing new contaminants. We’ve collaborated with end users to benchmark stability in varied pH environments, and we remain open about both our strengths and our continuing efforts. The market keeps us honest; we have earned loyalty by proving that our solutions hold up to independent scrutiny.
Direct client communication makes the difference. Several years ago, a major customer flagged an off-note issue that our QC checks missed. We didn’t just send a replacement drum; we re-checked the production run, discovered a minor filter failure, and immediately revised our process. Today, our filters get extra periodic checks, and QA procedures reference that incident in training. This kind of feedback-driven change has kept us aligned with the practical needs of the people who work with these materials every day.
In the world of β-ionone, batch rejections or fragrance failures have big consequences down the line. We hold routine technical exchanges with clients, using their direct input to shape future improvements. The front-line stories matter—the kinds of details that never show up in standard technical sheets. If a laundry compound reacts badly to plasticizer residues or a fine fragrance develops unpredictable top notes due to slight shifts in precursor ratios, we investigate and adapt, never dismissing user concerns.
We built the β-Ionone XLXT01 process to survive fluctuations in global chemical feedstock, rising costs, and evolving consumer expectations. Every change in the plant stems from real feedback and close observation, not pressure from marketing or consultancy trends. Where other suppliers chase margin by reducing controls, we invest in extra validation and transparency so end users aren’t left guessing about their material’s origin or performance.
The stakes for β-ionone supply go beyond price per kilo: missed launches, failed QC audits, or re-blending entire product lines can cost far more than any short-term saving. By engineering XLXT01 for predictability and thoroughly documenting both strengths and challenges, we’ve managed to keep long-term customers through cycles when others struggled. Our goal remains clear: consistent results, backed by direct technical knowledge and willingness to face problems head on.
The market for β-ionone continues to expand, driven by new trends and informed buyers demanding clearer provenance and traceability. Staying ahead means more than compliance—it involves constant review, investment in people and process, and open technical engagement at every level. Our plants run on lessons learned through trial and error, honest feedback, and a deep respect for the fine balance required in aroma chemical synthesis.
We invite technical partners and curious customers alike to visit, test, and rigorously examine XLXT01 firsthand. The real story appears in every drum shipped and each fragrance or flavor created from our material. Our job is to keep improving—always pushing for higher consistency, lower trace contaminants, and better sustainability—so that formulators and brands can focus on creativity, confident in what’s behind their core ingredients.
