Shandong Acid Technology Co., Ltd
+8615365186327 sales3@liwei-chem.com

Formamide 98%

    • Product Name: Formamide 98%
    • Chemical Name (IUPAC): Methanamide
    • CAS No.: 75-12-7
    • Chemical Formula: CH3NO
    • Form/Physical State: Liquid
    • Factroy Site: No. 1, Feicheng Chemical Industry Park, Shiheng Town, Feicheng City, Tai'an City, Shandong Province
    • Price Inquiry: sales3@liwei-chem.com
    • Manufacturer: Shandong Acid Technology Co., Ltd
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    Specifications

    HS Code

    784997

    Product Name Formamide 98%
    Chemical Formula CH3NO
    Purity 98%
    Appearance Colorless liquid
    Boiling Point 210 °C
    Melting Point 2-3 °C
    Density 1.133 g/cm3 at 20 °C
    Flash Point 154 °C
    Solubility Miscible with water
    Refractive Index 1.446 at 20 °C
    Vapor Pressure 0.08 mmHg at 20 °C

    As an accredited Formamide 98% factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

    Packing & Storage
    Packing Formamide 98%, 500 mL, is packaged in a clear, tightly sealed glass bottle with a secure screw cap and safety label.
    Container Loading (20′ FCL) 20′ FCL can load about 21-22 MT of Formamide 98% in 220 kg plastic drums, safely secured on pallets.
    Shipping Formamide 98% is shipped in airtight, chemical-resistant containers to prevent leaks and contamination. It is classified as a hazardous material and must be handled according to safety regulations, including proper labeling and documentation. During transit, it should be kept cool, away from incompatible substances, and protected from physical damage.
    Storage Formamide 98% should be stored in a tightly closed container in a cool, dry, well-ventilated area, away from sources of ignition, strong acids, oxidizers, and direct sunlight. Store at room temperature and avoid moisture. Ensure appropriate chemical-resistant shelving and proper labeling. Keep out of incompatible substances and ensure access to spill containment and safety measures as per chemical storage protocols.
    Shelf Life Formamide 98% typically has a shelf life of 2 years when stored tightly sealed in a cool, dry, and well-ventilated area.
    Application of Formamide 98%

    Purity 98%: Formamide 98% is used in polyacrylonitrile spinning, where it enhances solubility and fiber formation quality.

    Purity 98%: Formamide 98% is used in nucleic acid hybridization protocols, where it increases DNA strand separation efficiency.

    Purity 98%: Formamide 98% is used in high-performance liquid chromatography mobile phases, where it improves analyte resolution.

    Boiling Point 210°C: Formamide 98% is used in solvent extraction processes, where it enables high-temperature stability during operation.

    Melting Point 2-3°C: Formamide 98% is used in cryoprotectant formulations, where it lowers the freezing point and protects cell membranes.

    Low Water Content: Formamide 98% is used in peptide synthesis reactions, where it minimizes hydrolysis and improves peptide yield.

    Viscosity 1.57 mPa∙s: Formamide 98% is used in film casting solutions, where controlled viscosity ensures uniform film thickness.

    Molecular Weight 45.04 g/mol: Formamide 98% is used in pharmaceutical intermediate synthesis, where consistent molecular weight enhances reaction reproducibility.

    Stability Temperature Up to 150°C: Formamide 98% is used in chemical reaction media, where it provides thermal stability for sustained reactions.

    Density 1.134 g/cm³: Formamide 98% is used in organic electrolytes, where its density facilitates homogeneous mixing of salt and solvent.

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    Certification & Compliance
    More Introduction

    Understanding Formamide 98%: Real-World Insight From the Manufacturer

    A Closer Look at Formamide 98%

    For anyone deeply involved in the chemical industry, formamide stands out as more than just a simple solvent or laboratory reagent. It’s a pivotal chemical with countless practical applications, and when produced at 98% purity, it meets the high standards demanded by serious users. Years of manufacturing experience reveal how much relies on consistent, honest production. We’ve seen the difference that careful refining, sound QA, and direct-to-customer openness make in how reliable a batch remains over time and across geography.

    What Sets 98% Purity Apart

    In our plant, every batch of Formamide 98% begins with pure, well-selected raw inputs. Maintaining a consistent purity level means monitoring every stage, from raw material selection through final packaging. The 98% figure isn’t just for a label. Achieving this grade involves methods developed in-house, built around actual plant experience rather than textbook instruction.

    For many users, the difference between 98% and lower grades becomes glaringly obvious when it comes to demanding applications—whether you work in pharmaceuticals, organic synthesis, or the textile sector. Lower purities often bring unpredictable results and more downtime for purification. Years of collaborating with clients have taught us that minimizing downstream troubleshooting requires a direct focus on reliability from the very start.

    Why Such Purity Matters in End Use

    Day-to-day, we hear straight from our customers about the reasons they swear by a consistent 98% Formamide supply. In pharmaceuticals, any impurity—even a fraction—can throw off synthesis or trigger unwanted side reactions. Researchers developing next-generation medicines or chemicals cannot risk uncertain results. In textiles, dyeing and processing need a stable solvent environment. Formamide at 98% brings this stability, minimizing the risk of unpredictable batch-to-batch behavior.

    We’ve worked alongside plant operators and laboratory managers who describe the cost and headache saved by investing in a higher purity, rather than trying to workaround problems that stem from inferior quality. That’s not something you see in spreadsheets, but it shows up in how seamlessly operations keep moving, how easy it is to scale up, and how rare interruptions become.

    How We Control Quality

    Producing a reliable 98% formamide batch requires constant attention on the shop floor. Our technicians manage not just the obvious production steps but also the finer details—controlling moisture, checking for ammonia byproducts, and ensuring a neutral pH. Modern analytical equipment, such as gas chromatography and titration, gives us the numbers. Decades of accumulated know-how let us interpret those numbers correctly, pushing the process tighter with each cycle.

    We’ve learned, often by fixing what’s gone wrong in competitor batches, how even slight deviations affect everything downstream. Storage, transport, or small errors in the plant can have a domino effect. That’s why routine in-plant testing carries as much weight as the final lab sign-off. Whenever problems come up in customer applications, we trace them back as far as needed and share the solutions openly, without hiding behind “industry standards” or generic answers.

    Seeing the Industry Landscape

    Speaking frankly, we notice three animated debates in the chemical world about formamide—purity, safety, and cost. We’ve faced more than a few surprises when new users discover that a similar certificate from another producer leads to wildly different performance. Numbers on paper don’t always mean much in real conditions. As manufacturers, we spend as much time tracing these practical differences as we do tuning our own equipment.

    For price-conscious clients, choosing a lower purity can seem attractive at first glance. Over time, they come back after learning how byproducts and impurities throw a wrench into critical synthesis steps or create hidden environmental liabilities. High purity pays for itself in reduced waste, tighter process control, and fewer reworks. As producers, we track and publish the most common downstream problems tied directly to lower-purity input, and we’re open about what that savings really costs.

    Direct Use Cases Shared By Users

    We often hear from researchers who depend on water-miscible solvents with low toxicity, and formamide fits that bill. The 98% grade handles work in the synthesis of pharmaceuticals, agricultural chemicals, and specialty polymers. Its stability and solvent power help dissolve a range of ionic compounds and are valued for applications as diverse as cryoprotectants, electrolytes in batteries, and hydrogen cyanide production.

    One recurring example comes from synthetic fiber manufacturers who rely on formamide as a plasticizer or intermediate. They point to reduced foaming and better color consistency, both traced back to fewer side impurities present in the 98% material. We don’t need marketing slogans—the feedback comes loud and clear from operators aiming for lower batch rejects.

    Electrophoresis labs also favor 98% formamide, especially for RNA work, where even tiny ammonia traces in lower grades push samples off target or affect reproducibility. Researchers in molecular biology see sharper, more reliable separation, thanks to a near absence of side contaminants. In agricultural R&D, purity helps when formamide is used to synthesize crop protection agents that count on each molecule being true to spec.

    Distinct Manufacturing Experience

    Replicating a textbook process in an actual plant rarely goes smoothly. The chemical industry is built on continuous improvement, and we’ve adapted both our process and mindset as issues arise. Over the years, we revised our dehydration methods to cut down on water traces, switched up catalyst monitoring to minimize formic acid formation, and overhauled packaging protocols to protect against atmospheric moisture after filling. There’s no substitute for seeing how these choices play out in real-world shipments—with thousands of tons moved every year, the feedback loop is rapid and honest.

    Technicians working shifts at our facility often swap notes with customers troubleshooting equipment on their end, which has helped us narrow down the most vital quality checkpoints. Painting a true picture of chemical consistency means sharing both the good and the bad. The manufacturing team sorts through user stories where low-purity batches triggered entire-day shutdowns, compared with 98% pure supply running without a hitch. It provides the raw evidence guiding our own investments in quality assurance.

    Differences From Lower-Purity Alternatives

    Many chemical consumers have come to us after running into problems with cheaper, lower-purity alternatives. From a manufacturer’s angle, the distinction is clear-cut—more impurities in the raw material multiply workload further downstream. These impurities show up as unwanted color, off-odors, corrosive side products, or increased volatility that complicates storage and transport. In our years producing formamide, we have handled every complaint from unexpected polymerization, sample instability, or failed medical research protocols. Each of these is traced back to inconsistent or insufficient purification at the source.

    The 98% grade avoids this domino effect. Our own experience matches that seen by end-users: the higher the consistency and purity, the fewer the “mystery” process upsets or fugitive emissions to manage. Each year, the data from our own support logs reinforce the same lessons—customers pivot to the higher-grade formamide after losing too much time and product dealing with the side effects of cheap inputs. Process reliability isn’t just a selling point; it shapes whether a plant achieves its production goals or spends extra effort on troubleshooting and disposal.

    Supporting Growth With Transparency

    Our company grew based on relationships forged through technical transparency, rather than salesmanship. Customers want clarity about the product’s origins, its real chemical profile, and how it’s handled from tank to delivery. In our experience, the most sustainable partnerships come not from seeking incremental market share, but from showing up during plant audits and working shoulder to shoulder with users to resolve any snags.

    Regulatory shifts, especially in pharmaceuticals or fine chemicals, insist on traceability and compliance. Producers who cut corners or refuse transparency soon find themselves shut out of the market. That’s never a gamble worth taking. Our quality control data and trace reports are open for inspection because we have invested years ensuring they offer a true record of what we deliver. Over time, this willingness to open the books pays off in customer loyalty—not least when they scale up or seek new certifications.

    Tackling Handling and Safety In Practice

    Formamide maintains a balanced profile—miscible with water, moderate boiling point—making it suitable for varied processes. Our production experience has shown us the key risks appear mostly during storage or handling, especially at scale. Formamide’s low volatility still dictates careful ventilation and material compatibility. Staff safety training is a routine focus in the plant. We share this firsthand experience with users downstream, supporting the adoption of safe-handling protocols. Our technical support teams work with facility managers during plant commissioning or expansion to mitigate risks, implement clear labeling, and troubleshoot storage solutions for bulk volumes.

    Market shifts in safety regulation are routine. Over a decade in chemical manufacturing brings a firsthand view of how regional, national, and transnational regulations shape product adoption. Formamide 98% sits at the intersection of performance and regulatory compliance for a growing set of applications. Consistent documentation, batch-level analysis, and compliance consulting keep our partners ahead of regulatory headaches. Our production records and safety data aren’t produced just for signature—they function as an everyday reference for regulators and users alike.

    Solving User Challenges Together

    Technical support is more than fixing bottlenecks; it’s about building understanding between production teams and end users. Over the years, the requests we field most often concern batch consistency, application-specific troubleshooting, and fast turnaround for urgent needs. We’ve worked directly with chemical processors, university labs, and food additive developers who can’t afford trial and error. Our approach involves walking them through the science, the production details, and the real options for improving output without cutting corners on safety or reliability.

    We’ve seen firsthand that knowledge travels both ways—we hear just as much from our customers as we share. Their lived experience in the field gives us the data we need to sharpen in-plant practices and adapt formulations. Our technical team reviews every query, and any insight gained feeds directly into continuous improvement. Over time, this cycle prevents issues from recurring in future batches, while building trust in our product as a long-term platform, not just a one-off solution.

    Building For Efficiency

    On the practical front, our facility integrates in-line quality checks, short feedback loops between lab and plant floor, and staff who have hands-on production knowledge. This approach streamlines the process and catches potential deviations before they become a bigger issue. In growing demand cycles, we scale output based on a clear view of both our inventory and our customer pipeline, investing in automation and logistics to keep shipments on schedule.

    Logistics takes center stage for us, especially with global clients. Ensuring the quality of our formamide 98% doesn’t end when the truck leaves our loading dock—it involves training our partners and transport teams to recognize the cues of proper storage and prompt delivery. Decades of experience have shown us that minor slips during shipping impact the final product, so we manage every movement in partnership with experienced handlers, using packaging tailored to resist environmental shocks and moisture ingress.

    Shaping Industry Standards Through Practice

    As manufacturers, we play an active role in setting not just our own procedures but the standards for our wider industry. Our real contributions come through publishing detailed studies, taking part in regulatory panels, and opening our facilities for peer review or training. Formamide 98%, in our hands, isn’t just a product but a statement: purity, transparency, and practical improvement matter.

    We’ve led pilot programs in sustainable packaging and advanced waste management for our byproducts, and we share lessons learned openly. Regular engagement with industry networks, regulatory agencies, and user forums keeps us alert to changing requirements and helps us raise the performance bar—for ourselves and for everyone working with formamide, across sectors.

    From Raw Material To Real Results

    In our industry, every detail—raw material source, plant conditions, operator training, and transport—links in a chain that either delivers quality or diffuses it. Years at the head of the production line teach you that purity figures are more than marketing. They reflect every decision made, every piece of feedback adopted, and every unexpected result learned from.

    The track record for our 98% formamide comes built on those lived experiences—tough periods where production runs stumbled due to equipment limits, and breakthrough moments developed shoulder-to-shoulder with determined partners. We take pride in more than compliance; pride springs from knowing our material forms the backbone of so many critical scientific, industrial, and medical advancements.

    Future Directions: Earning Trust By Performance

    Looking forward, industry needs are shifting and end users seek even greater assurances on transparency, sustainability, and traceability. True manufacturers know trust grows from hard evidence—a reputation earned in the field, not claimed in advertising. We continue to invest in greener energy sources, lower emissions, and enhanced processing to keep our Formamide 98% at the forefront of both quality and environmental responsibility.

    As always, it’s the conversations with researchers, plant operators, and technical buyers that bring the clearest vision. We draw our direction from the questions they raise and the challenges they bring. Any chemical is only as good as the reliability it delivers, the problems it solves, and the openness behind its production. That lesson guides our every batch, our every improvement, and the future we build together in chemical manufacturing.