|
HS Code |
154534 |
| Chemicalname | 5-Acetylaceamidobenzimidazolone |
| Molecularformula | C11H11N3O3 |
| Molecularweight | 233.23 g/mol |
| Casnumber | 50362-97-1 |
| Appearance | Off-white to yellow powder |
| Meltingpoint | 228-230°C |
| Solubility | Slightly soluble in water |
| Purity | ≥98% |
| Storageconditions | Store at 2-8°C, protected from light |
| Synonyms | 5-Acetylamino-2-benzimidazolone |
As an accredited 5-Acetylaceamidobenzimidazolone factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The packaging contains 100 grams of 5-Acetylaceamidobenzimidazolone in a tightly sealed amber glass bottle with clear labeling. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for 5-Acetylaceamidobenzimidazolone typically holds 8–10 metric tons, packed in 25 kg fiber drums or bags. |
| Shipping | 5-Acetylaceamidobenzimidazolone is shipped in tightly sealed containers, protected from light and moisture. The chemical is handled according to standard hazardous material protocols, ensuring compliance with local and international transport regulations. Proper labeling and documentation accompany each shipment to ensure safe and secure delivery to the designated recipient. |
| Storage | 5-Acetylaceamidobenzimidazolone should be stored in a tightly closed container in a cool, dry, well-ventilated area, away from direct sunlight and incompatible substances. Keep it away from sources of ignition and moisture. Store at room temperature or as specified by the manufacturer. Ensure proper labeling, and restrict access to trained personnel. Always follow relevant safety guidelines and local regulations. |
| Shelf Life | 5-Acetylaceamidobenzimidazolone typically has a shelf life of 2–3 years when stored in a cool, dry, and dark environment. |
Competitive 5-Acetylaceamidobenzimidazolone 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@boxa-chem.com.
We will respond to you as soon as possible.
Tel: +8615371019725
Email: sales7@boxa-chem.com
Flexible payment, competitive price, premium service - Inquire now!
Producing 5-Acetylaceamidobenzimidazolone brings its own set of challenges and rewards. This specialty compound, with the molecular formula C10H9N3O2, stands apart from basic aromatic amines or benzimidazolone intermediates because of its unique acetyl and aceamido functionalization. Our team has spent years refining the synthesis process to meet exacting purity demands, always focusing on maintaining consistency from batch to batch. Every order sent out reflects the commitment of a manufacturer who understands the implications a contaminated or off-specification lot can have on customer operations—downtime, lost raw material, lost trust. Early on, multiple suppliers in the industry struggled with lot-to-lot inconsistency. By improving our reaction controls, using reagent-grade feedstocks, and running regular product characterization by NMR, HPLC, and elemental analysis, we established a reliable, reproducible process. Thankfully, our facility stays compliant with good manufacturing practices and our team watches every process step closely, catching issues before they reach the drum-filling stage.
Some customers first learned about 5-Acetylaceamidobenzimidazolone from patent literature or specialty catalogs, but translating an innovation from paper-trail curiosity into an industrial staple demands much more than curiosity. Our journey with this compound began over a decade ago, responding to requests from pigment formulators seeking high-color-strength intermediates for high-end performance coatings. We still remember troubleshooting those early crystallizations—learning the hard way that a single impurity phase can sideline a full week’s output. Our current process takes each detail from solvent profile to filtration rate into account, delivering a fine, free-flowing pale yellow crystalline powder that resists agglomeration and stores easily under ambient conditions. With proper handling, the product can last years with no loss in utility, according to stability studies under controlled temperature and humidity.
Through years of lab work and customer feedback, we’ve locked down the key quality markers. Typical batches contain greater than 99% purity by HPLC, with a melting point in the expected range between 220–225°C, depending on hydration and crystal form. Trace metal content falls below 10 ppm, and total residual solvents are checked by GC to ensure levels well under 0.05% by weight. We also run sample checks for ash content, since excess inorganic residue can spell disaster for downstream applications in pigment manufacture and pharmaceutical synthesis. Our powder stays fine and dust-free, which makes for straightforward weighing and solution preparation at industrial scale.
This isn’t a bulk commodity chemical churned out as a sideline. Our product stands out against competing grades, particularly those originating from cost-driven plants without robust analytical controls. An end-user who prioritizes process reliability can spot the difference between well-made 5-Acetylaceamidobenzimidazolone and a product that barely meets the label claim. We get calls when users encounter problems with unknown off-odor, discoloration, or solubility drop-offs from other sources. In such cases, our clean profile and tight particle-size range help clients get back on track quickly, whether they are mixing, dispersing, or digesting in high-throughput reactors.
One specific lesson we’ve learned as a manufacturer: Users who demand tight tolerance on contaminants experience far fewer problems when their supplier provides not just a certificate of analysis, but evidence of repeatable in-process checks and transparent communication lines. Our chemists and QC teams often hold direct video calls with customer groups to trace and resolve the rare deviations—proving every time that direct relationships make all the difference. We never hide behind an opaque supply-chain curtain, because real-world production partners want real-world answers.
5-Acetylaceamidobenzimidazolone has earned its place as a trusted intermediate for advanced pigment technologies. In organic pigment production, the acetyl and aceamido groups act as functional points for further coupling and modification, creating stable colorants for plastics, coatings, and inks. Customers in the automotive and polymer fiber sectors need pigments with high thermal stability and resistance to photobleaching. Using technical grade 5-Acetylaceamidobenzimidazolone boosts batch yields and improves dispersion, especially valuable in continuous or high-shear mixing processes.
Over the years, we worked closely with pigment makers who wanted to avoid color drift and maintain lot-to-lot consistency, especially for demanding export clients. The feedback from downstream users was clear: impurities not only shift color and reduce fastness but also aggravate filter clogging during dispersion. By supplying low-ash, high-purity 5-Acetylaceamidobenzimidazolone, we became a preferred partner for market leaders who base their reputation on exact color tone and long-term performance. One customer reported a measurable drop in defect rates in plastic masterbatch lines after switching suppliers to us, citing smoother blending and more predictable final product appearance.
The pharmaceutical industry deals in tight regulatory margins, so any intermediate that enters a patented route needs clean, fully documented provenance. We have collaborated with customers on custom specifications, with our analytical department providing full traceability on every attribute, from IR and NMR spectra to residue solvent profiles. Each batch leaves our site with an audit trail that meets or exceeds current good manufacturing requirements. Our upstream procurement team enforces strict compliance checks on all precursor inputs, screening for banned or restricted substances as specified under major regulatory frameworks.
Pharmaceutical chemists who require 5-Acetylaceamidobenzimidazolone as a building block often develop entirely new synthetic pathways based on the reactivity of this benzimidazolone core. Reliable sourcing supports their work from kilo-lab to pilot plant scale. We’ve even tailored granulation and drying parameters for specific customer requests, balancing processability with downstream requirements in mind. This attention to technical communication, not just contract terms, helps our pharma partners avoid unexpected snags during tech transfer from R&D to production.
Benzimidazolone derivatives cover a wide range of chemicals, but the unique combination of acetyl and aceamido substitutions found in 5-Acetylaceamidobenzimidazolone sets this molecule apart. Simpler benzimidazolones without these groups lack the extended reactivity needed for coupling into specific pigment frameworks or advanced pharmaceutical scaffolds. Our chemists use in-house comparison studies to demonstrate why alternative molecules might yield inferior results. In pigment applications, for example, less functionalized analogues fail to anchor well onto high-surface-area substrates, leading to weaker color intensity or shorter lifetime under UV stress. Our customers demand these specific attributes, and we meet them by careful synthetic design and consistent quality assurance.
The same logic applies in pharmaceutical intermediate work. Some clients once tried cost-saving substitutions, blending similar-looking benzimidazolone derivatives sourced from non-dedicated plants. They quickly ran into purification headaches caused by side-products or inconsistent starting material. The switch back to high-grade 5-Acetylaceamidobenzimidazolone meant their development teams returned to predictable yields and straightforward regulatory filing packages. The lesson sticks: shortcutting quality creates more work and regulatory risk in the long run. We don’t ask customers to pay for a label—they’re paying for reliable outcomes, batch after batch.
While market trends come and go, a producer at scale must keep pace with both regulatory scrutiny and client demands for continuous process improvement. We dedicate significant resources to equipment maintenance, batch tracking, and staff training. Twice a year, our site undergoes process audits that check everything from raw material intake screens to final packaging cleanliness. These aren’t just paper exercises—our process engineers actually trace each step of a random lot through production, identifying bottlenecks and scope for waste reduction.
We invest in continuous-flow reactors for better control of temperature gradients and improved reaction selectivity. By running more stringent endpoint analysis and controlling crystallization carefully, we see improvements in final product consistency, shortening the time needed for customer qualification. Data isn’t just numbers for us; our technical team meets monthly to review process deviation logs and implement updates as new best practices arise. The result shows up every week—fewer customer complaints, higher accepted lots, and steady repeat orders from knowledgeable buyers.
Process integrity also comes from workforce stability. While some competitors churn through seasonal labor or outsource critical steps, we retain skilled operators for the long haul. Many of our core synthesis team members have overseen thousands of reaction cycles, spotting minor process anomalies before they become batch-threatening problems. That experience offers real value in a sector where the cost of a failed synthesis can erase a month’s profits, whether for us or our customers.
Shipping high-value specialty chemicals means thinking beyond the bag or box. Each drum of product is packed in double-lined moisture control bags, with the outer fiber or steel drum providing tamper evidence and safe stacking in crowded chemical warehouses. We train our logistics staff to recognize signs of improper handling, and we stand by our product beyond the shipping dock. Temperature excursions or broken seals trigger batch recall protocols—even if the problem arises after receipt by the customer. In the early years, we learned from a single transit incident: a summer shipment sat on a hot tarmac and ended up sticking together. We adopted better heat-resistant liners that year and haven’t faced a repeat event since.
Inside the warehouse, temperature- and humidity-controlled storage remains key. Test samples of each lot stay on site for ongoing monitoring. We track shelf-life by periodic reanalysis, and our records show more than 95% of lots exceed typical user expectations for chemical stability. Every batch gets an identifying lot code that links to our digital archive—including synthesis notes, QC chromatograms, and production date. If a client ever calls with a question months or even years later, we pull the relevant records and respond with full transparency, not canned answers. This open approach keeps buyer confidence high, especially when global markets throw up unpredictable supply chain stress.
As a chemical manufacturer, responsibility for a safe workplace and a clean environment extends from the lab bench to effluent handling. During 5-Acetylaceamidobenzimidazolone production, our exhaust scrubbing and wastewater treatment systems operate at high capacity, reducing emissions below legal limits set by regional environmental authorities. Ongoing investments in closed-loop solvent recovery allow us to minimize losses and lower overall environmental impact. Our EHS department runs periodic drills and staff training to manage spills or exposures, and we make no bones about declining business that would require shortcutting safety or environmental controls.
Worker safety starts with proper equipment—ventilated fume hoods, sealed transfer hoses, and real-time monitoring of airborne contaminants. Operating instructions depend on clear signage and thorough training; no new operator sets foot on the production line without understanding the chemical’s hazards and handling needs. Emergency response simulations help ensure everyone knows what to do, reducing real-world risk and upholding our hard-earned reputation for safe, dependable supply.
The specialty chemical sector keeps evolving, and customer demands change faster now than ever. Globalization squeezes both price and delivery times, while compliance expectations only grow stricter over time. We see increasing scrutiny from major pigment and pharma brands regarding traceability, document control, and green chemistry metrics. By partnering closely with both upstream suppliers and downstream specifiers, we respond to these shifts in real time—sometimes helping to shape industry norms as we go.
The reality is that every innovation carries a corresponding risk. About five years ago, emerging pigment formulations created by downstream R&D departments demanded even higher selectivity on impurities, especially chlorinated solvents and trace heavy metals. We stepped up by adding a second HPLC line configured for targeted impurity scans and established tighter controls on maintenance and cleaning protocols for all production gear. Our investment paid off: major customers flagged our facility as a preferred core supplier in their compliance audits, providing a stable platform for collaborative growth and shared innovation.
Customers value supply chain resilience as much as technical merit. Raw material bottlenecks during recent years highlighted the value of well-developed procurement relationships—something that can’t be copied overnight or outsourced cheaply. When competitors lost production due to shortages or logistics woes, we kept on schedule by drawing on our relationships with established, regional raw material partners. Regular supplier reviews and honest dialog build a culture of transparency and mutual trust, minimizing disruption through proactive planning rather than last-minute reaction.
Every batch of 5-Acetylaceamidobenzimidazolone that leaves our warehouse represents more than product—it embodies years of experience, partnership, and pride of workmanship. Customers who have worked with us tend to stay with us; the chemical itself doesn’t change, but the reliability, communication, and willingness to solve problems together establish the manufacturer’s mark. Our team’s expertise rarely comes from manuals—it grows from troubleshooting, fine-tuning, and collaborative innovation with clients who share our commitment to excellence.
Our doors remain open for technical conversation and honest feedback. Whether you need a kilo for synthesis development or a multi-ton rollout for a pigment launch, we approach each request with the same care and direct attention. We know that real results stem from genuine relationships and a deep understanding of both product and process, every single time.
