|
HS Code |
658164 |
| Chemical Name | Boronic Acid |
| Molecular Formula | C6H5B(OH)2 |
| Molar Mass | 121.93 g/mol |
| Appearance | white crystalline solid |
| Melting Point | 133-136 °C |
| Boiling Point | 298 °C (decomposes) |
| Solubility In Water | moderate |
| Density | 1.18 g/cm³ |
| Cas Number | 98-80-6 |
| Pka | 8.8 |
| Hazard Class | Irritant |
| Storage Conditions | store in a cool, dry place |
| Synonyms | Phenylboronic acid |
As an accredited Boronic Acid factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Boronic Acid is packaged in a 100g amber glass bottle with a screw cap, featuring safety labeling and hazard warnings for laboratory use. |
| Shipping | Boronic Acid is shipped in tightly sealed containers to prevent moisture absorption and contamination. Packages are labeled according to hazard regulations and typically transported as a solid chemical. Standard shipping practices include handling with care, avoiding contact with incompatible materials, and complying with all relevant local and international chemical transportation regulations. |
| Storage | Boronic acid should be stored in a tightly sealed container, protected from moisture, in a cool, dry, and well-ventilated area. Avoid exposure to heat, direct sunlight, and incompatible substances such as oxidizing agents. Ideally, store boronic acid under inert gas (e.g., nitrogen or argon) to prevent hydrolysis and degradation, and clearly label all storage containers. |
Competitive Boronic Acid prices that fit your budget—flexible terms and customized quotes for every order.
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Boronic acids stand out in the toolbox of advanced organic synthesis. Over the past decade, the drive from global pharmaceutical, electronics, and material science industries has pushed demand for high-purity boronic acid. Our journey as a direct manufacturer goes beyond filling containers. It starts at boron mineral sourcing and continues through fine-tuned synthesis, rigorous purification, and continuous technical support for researchers and industrial partners alike. While countless traders and resellers circulate boronic acid sourced from unknown origins, we keep hands-on control through every stage, shaped by the daily realities of chemical manufacturing.
Organic chemists remember the first time a Suzuki-Miyaura cross-coupling reaction clicked into place on their benchtop. Boronic acid made it possible. In our range, the standard phenylboronic acid (CAS 98-80-6) holds a special place for its role in C–C and C–N bond formation. It acts both as a building block and as a partner in creating complex molecules. Alongside phenylboronic acid, we also deliver alkyl, alkenyl, aryl, and heterocyclic derivatives. Pinacol esters and MIDA boronates on offer broaden the synthetic avenues for protecting group strategies and stability demands.
Consistency is not just talk—it’s ingrained in our process. Our reactors enable gram to multi-ton batch sizes, guided by the same process parameters every time. Controls over stoichiometry, solvent selection, and crystallization are not optional. Every parameter links directly to the reproducibility that research chemists, medicinal scientists, and production managers expect from the boronic acids we release.
On specification sheets, numbers don’t always tell the whole story. What actually leaves our factory meets clear benchmarks: assay above 98% HPLC, moisture content less than 0.3%, and trace metal controls checked up to single PPM level. These checks matter on the floor. For example, a batch with off-ratio water content introduces unpredictable yields in downstream catalysis. Trace iron or palladium leads to failed reactions and costly troubleshooting. Over the years, lab partners have shared raw feedback to guide improvements. Each report and each issue routed directly to our production engineers leads to tighter control and better outcomes for the next batch.
A graduate student working with a limited grant and a multinational drug discovery team both share one fact: wasted reactions drain time and budget. Boronic acid from a manufacturer who respects those stakes offers confidence through transparency. Our roots in manufacturing let us track and trace sources for every lot. We share complete analytical dossiers with spectra, chromatograms, and every extraction condition to verify reproducibility. This isn’t just paperwork. Collaborators in active pharmaceutical ingredient (API) synthesis depend on this to support regulatory filings and patent claims.
We draw on direct conversations with R&D teams across Asia, North America, and Europe to adapt production for new applications. Custom packing avoids cross-contaminating sensitive compounds with dust, moisture, or other boron derivatives. We take pride in reducing access delays. Most requests for special derivatives get routed in real time between production, QC, and logistics to keep downtime minimal.
Through hundreds of batches, a simple fact stands out: boronic acids are deceptively reactive. Direct handling means dealing with hydrolytic sensitivity and batch-to-batch variation. Commercial traders and middlemen talk only about purity on paper. Actual producers see the difference between a material that works in a small-batch bench reaction and a scaling run that stalls for an entire shift. Our plant engineers refined dryer operation and filtered air systems to keep even highly functionalized boronic acids stable during filling and packing.
Boronic acids shape the success or failure of palladium-catalyzed couplings. In the world of OLEDs, organic semiconductors, and molecular sensors, boronic acids’ nucleophilic character takes the starring role. Changes in batch quality ripple outward fast – one faulty shipment can kill a production month or set a research program back a year. It’s the unwavering focus on repeatability and supply chain transparency that turns boronic acid from a commodity into a foundation of innovation for our partners.
Years of direct manufacturing reveal subtle factors often missed by resellers. Fresh boronic acid, protected from ambient humidity through vacuum-sealing and filled under nitrogen, delivers stable yields and shelf life. We monitor every truck and warehouse segment to prevent accidental delays or exposure that could degrade the compound before reaching the customer.
Smaller operators might treat boronic acid as a line item. For us, it’s a core product, manufactured with specialized glass and PTFE reactors and processed with mol sieves for a moisture-free environment. Our team includes chemists who worked in academia and industry and understand experimental variance from direct experience. They guide each new product line and help tune specifications to real-world process demands—instead of relying only on theoretical numbers.
We don’t see ourselves as just another actor in the supply chain. Every kilogram we release has a backstory—raw materials traced to specific mines and processes shaped by years of troubleshooting persistent yield drops and impurity issues. Every missed delivery window or failed analysis registers on our radar. This shapes improvements, updates to SOPs, and real-time responses.
In the pharmaceuticals sector, boronic acids enable the construction of critical scaffolds for kinase inhibitors, proteasome inhibitors, and anti-cancer drugs. Our technical team partners closely with medical chemists at the molecular design phase, recommending specific derivatives and batch adjustment strategies based on anticipated impurities and downstream reactions. As the scope of precision medicine grows, customers demand both common and rare boronic acid derivatives—tailored for late-stage functionalization or as key intermediates.
Electronics manufacturers depend on boronic acids for organic light-emitting diodes and printable transistors. Here, even trace colored impurities make finished devices unusable. Our QA protocols go beyond regulatory minimums, incorporating downstream device testing as part of the manufacturing feedback loop—catching issues early and saving both us and our partners missed production runs or costly waste.
Laboratories developing carbohydrate recognition tools, chemosensors, and molecular probes require heterocyclic and functionalized boronic acids. Each class of compound carries unique process risks, from air sensitivity to thermal lability. Our plant’s modular reactors and controlled environment systems allow us to offer derivatives that would otherwise degrade with traditional synthesizers. Both research groups and large-scale users benefit from regular production review meetings where we share results—what succeeded and where next improvements lie.
We also supply boronic acids to agrochemicals research, where rapid new molecule development cycles benefit from access to fresh, highly pure intermediates. Issues like boron cross-contamination take on added urgency when products enter fields and food chains. To address this, our team applies extra purification steps invoked only for sensitive crops or regulated markets, and we accept post-delivery feedback on observed reaction trends to further refine each next batch.
Traders may claim boronic acid is interchangeable from multiple sources, but manufacturing history tells a different story. Compared to generic suppliers, our tailored process means far lower batch variability. Consistency for Suzuki coupling reactions comes from daily GC-MS and NMR screening, not from sporadic outsourced checks. While some sources tolerate 96% or even 97% assay on outgoing material, we operate with higher cutoffs. Lab teams share data that supports strict limits, avoiding issues of stalled couplings or failed chromatographic purifications.
We’ve witnessed the impact of poor supply chain practices. One multinational partner, relying on outside brokers, found shipments contaminated with foreign material residues—forcing a plant shutdown and months of delayed launches. We have built a documentation and verification process, taking each batch from the raw boron input through stepwise QC, and providing real access to our technical team for any anomaly or concern.
Certain markets request “off-the-shelf” boronic acids, but process chemists running pilot or full industrial scales need more. They need a manufacturing partner that shares both real-time process realities and gives input-backed release specifications, not just certificates for ticking audit boxes. This difference means more productive development timelines and less risk of scale-up failures.
Boronic acid derivatives also pose storage and packaging challenges, especially in humid or high-temperature climates. Our on-site storage upgrades and custom packing reduce variance arising from transport shock or warehouse delays. End users regularly report smoother downstream outcomes with our vacuum-packed lots, compared to fused or off-white powders collected from less controlled facilities.
Experience shows every batch, every feedback call, and every troubleshooting session feeds into better boronic acid for the next project. We maintain open lines with R&D and production leads, using their experiences with our product in real-world processes to drive continuous improvement cycles.
Technical staff visit both local and international partners to observe how our boronic acid performs under varied reaction conditions—from high-throughput discovery to kilogram-scale reactor runs. This direct learning gives greater nuance to every specification that we generate; it’s not set in stone. Each time a synthetic pathway falters or a separation fails, we investigate with the user and adapt both our production process and recommendations accordingly.
This no-nonsense approach stands in contrast to factory-shy resellers isolated from production technology. Every improvement, from optimizing crystallization parameters to changing how lots are transported and stored, comes from lessons forged in the realities of scale-up chemistry—not marketing scripts.
Large-scale boronic acid production is rarely routine. Problems encountered range from color changes linked to side oxidation reactions, solid caking in drums during hot, humid shipping weeks, or distinct polymorph formation in extended storage. Downstream users raise concerns about how even tiny shifts in free acid or water content influence catalyst activity in C–C coupling reactions. Our team has responded by designing both routine and contingency analytical checks, and batch-logging environmental exposure data. As a result, our partners experience fewer surprises, spending less time trouble-shooting material issues.
Chemical supply faces another reality: geopolitical and regulatory shifts can rewrite access to boric acid precursors overnight. We built multi-national sourcing partnerships and compliance systems, reducing disruption risks and insulating our partners from upstream hiccups. Real-time tracking of incoming shipments and redundancy on key raw materials keeps grocery volatility from trickling down to the bench or process plant.
Moisture is an ever-present hurdle due to boronic acid’s affinity for water. Reactions can tolerate small upticks, but ger batches hold consistent reactivity through rigorous in-plant drying, sealed nitrogen packing, and ongoing humidity checks. Chemists relying on last-minute material restocking know this attention to detail means fewer ruined reactions or lost deadlines.
Pharmaceutical, agrochemical, and electronics innovators face tougher regulatory hurdles year on year. We’ve participated in several new molecular entity (NME) launches, providing full traceability and batch-specific analysis dossiers along with our boronic acid shipments. QC teams review and cross-check IR, NMR, and mass spectra before each release. This documentation, backed by our own chemists’ signatures and method references, helps partner clients navigate regulatory agencies worldwide.
In addition to mainline products, specialty boronic acid derivatives play a growing role in new compound discovery. We have developed tailored processes for meta- and ortho-substituted aryls, protected boronates, and fluorinated derivatives that require rethinked solvent systems and reaction sequences. As medicinal chemists seek ever-more complex architectures, we invest in R&D to synthesize and purify challenging boronic acids with novel functional groups. The result is not only an expanded catalog, but direct dialogue with scientists scaling up from bench to pilot plant.
Consistent boronic acid supply stands at the intersection of engineering, chemistry, and logistics. Scalability requires more than increased capacity; it needs real commitment to environmental control, feedback-based process adaptation, and technical literacy across the team. Our story with boronic acid keeps evolving, shaped by the demands and wisdom from every customer who pushes its boundaries a little further.
For us, boronic acid is neither just a catalog entry nor a speculative commodity. Each successful delivery to an active research group or industrial process signals a win for field-tested manufacturing and global partnership. We grounded those facts not in marketing pitches, but in daily practice, open feedback, and willingness to adapt. This is how boronic acid leaves our plant—as a product of real-world experience, anticipating not just today’s reaction but tomorrow’s breakthrough.