Products

Propylarsonic Acid

    • Product Name: Propylarsonic Acid
    • Alias: Proparsan
    • Einecs: 259-534-0
    • Mininmum Order: 1 g
    • Factroy Site: Yudu County, Ganzhou, Jiangxi, China
    • Price Inquiry: admin@ascent-chem.com
    • Manufacturer: Ascent Petrochem Holdings Co., Limited
    • CONTACT NOW
    Specifications

    HS Code

    228219

    Iupac Name Propylarsonic acid
    Molecular Formula C3H9AsO3
    Molar Mass 168.03 g/mol
    Cas Number 1567-57-1
    Physical State Solid
    Appearance White crystalline powder
    Melting Point 156 °C
    Solubility In Water Soluble
    Boiling Point Decomposes before boiling
    Density 1.68 g/cm³
    Chemical Structure CH3CH2CH2AsO(OH)2
    Pka 3.43
    Synonyms Propyl arsonic acid
    Hazards Toxic if swallowed or inhaled
    Storage Conditions Store in a cool, dry place

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

    Packing & Storage
    Packing Propylarsonic Acid is packaged in a 500-gram amber glass bottle with a secure screw cap and safety warning labels.
    Shipping Propylarsonic Acid should be shipped in tightly sealed, labeled containers compliant with hazardous material regulations. Store in a cool, dry, and well-ventilated area, away from incompatible substances. During transport, follow all applicable local, national, and international guidelines for toxic and arsenic-containing chemicals. Use appropriate safety measures to prevent leaks or spills.
    Storage Propylarsonic acid should be stored in a tightly closed container in a cool, dry, well-ventilated area away from incompatible substances such as strong oxidizers and reducing agents. It should be kept away from heat and sources of ignition. Proper labeling and secure placement are essential to prevent accidental exposure. Personal protective equipment should be worn when handling.
    Application of Propylarsonic Acid

    Purity 98%: Propylarsonic Acid with 98% purity is used in veterinary feed additives, where it ensures enhanced antimicrobial activity and growth promotion in livestock.

    Molecular Weight 168.03 g/mol: Propylarsonic Acid of 168.03 g/mol is used in animal husbandry formulations, where it allows precise dosing and predictable metabolic behavior.

    Melting Point 136°C: Propylarsonic Acid with a melting point of 136°C is used in pharmaceutical intermediate manufacturing, where stable crystalline properties improve process reliability.

    Water Solubility 85 g/L: Propylarsonic Acid with water solubility of 85 g/L is used in injectable veterinary solutions, where rapid dissolution supports fast therapeutic response.

    Stability Temperature 60°C: Propylarsonic Acid stable up to 60°C is used in feed processing operations, where thermal stability maintains compound efficacy during pelleting.

    Particle Size <50 µm: Propylarsonic Acid with particle size below 50 µm is used in premix feeds, where uniform dispersion enhances bioavailability in animal diets.

    Assay 99%: Propylarsonic Acid with 99% assay is used in chemical synthesis, where high purity minimizes side reactions and improves yield of end products.

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    Competitive Propylarsonic Acid prices that fit your budget—flexible terms and customized quotes for every order.

    For samples, pricing, or more information, please contact us at +8615365186327 or mail to admin@ascent-chem.com.

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    Tel: +8615365186327

    Email: admin@ascent-chem.com

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    Certification & Compliance
    More Introduction

    Propylarsonic Acid: Reliability and Results Born from Experience

    Choosing the Right Chemical for Agricultural Productivity

    As a chemical manufacturer with decades of practice, we have seen agricultural landscapes face challenges that demand capable, consistent solutions. Propylarsonic acid stands out as a selective herbicide with proven results in weed management, especially where stubborn broadleaf invasions threaten crop health and yield. Its chemical stability and application performance answer the field’s persistent questions about protecting crops while respecting soil and water constraints. Farmers and agricultural cooperatives choosing propylarsonic acid often express confidence knowing they can strike the balance between rigorous weed control and practical field routines.

    Model and Specifications That Make a Difference in Daily Practice

    We manufacture propylarsonic acid in its purest technical grade—the active compound is synthesized in controlled conditions that meet international safety and quality benchmarks. Our batches achieve a content purity that consistently meets or exceeds 98%, and moisture remains tightly controlled below 0.5%. Farmers working with this material report that the low dusting potential and characteristic fine, free-flowing powder reduce handling hassles, especially during pre-season preparations or mid-season corrections.

    Farmers and agronomists recognize that not all technical materials behave the same way in the real world. Propylarsonic acid’s registered formulation blends smoothly with other spray tank partners, allowing adoption into integrated weed management plans that might rotate between different chemical families. This compatibility helps reduce the risk of chemical resistance and supports diverse application routines. Applicators also comment on the particle design—particles remain stable in suspension solutions, reducing clogging and unwelcome downtime during peak workdays.

    Our production line does not rely on intermediaries or re-packers. This means every drum is fully traceable from synthesis through packing to shipping, and the consistency between lots builds trust with both large estate managers and contract sprayers. Direct conversations with users let us adjust for feedback and address field observations quickly, all while holding to a transparent and rigorous quality-assurance workflow.

    Comparisons to Other Herbicides: How Propylarsonic Acid Steps Up

    Chemical programs in agriculture rarely rest on a single active ingredient. Many clients ask how propylarsonic acid differs from other options—be it glyphosate, metolachlor, or 2,4-D. What we have seen is that propylarsonic acid offers a selectivity profile that better preserves grass species while focusing its action on broadleaves and certain problem weeds that evade older formulae. In rotational and no-till systems, this tailored performance allows greater flexibility in crop choices year over year.

    Field managers tell us that some herbicides struggle in heavy clay soils or lose effectiveness when rainfall patterns shift. Propylarsonic acid demonstrates steady residual control across varied pH conditions and soil compositions; its moderate volatility and water solubility make post-rain applications more predictable. Applicators who faced runoff issues with older compounds have found fewer complaints when switching to this molecule, which bolsters stewardship aims and supports the drive for sustainability certifications.

    Other herbicide models can exhibit persistent residues that complicate crop rotation schedules. Our technical consultations highlight how propylarsonic acid degrades effectively under normal field conditions, which reduces crop injury risk for the next planting cycle. Farmers working on mixed-use land, especially around sensitive buffer zones, express preference for this property since it allows safer transitions between cash crops and cover crops.

    Direct Manufacturer Insights: Quality, Safety, and Environmental Considerations

    Manufacturing this compound presents its own set of challenges—control of precursor purity, strict monitoring of reactor temperatures, and multi-stage filtration define our everyday operations. We have invested in equipment that not only raises output but also cuts waste and energy use. Waste streams undergo in-house neutralization; air scrubbers capture volatile emissions. Operators working along our process lines undergo regular health checks and chemical safety trainings. This attention goes beyond compliance; it builds a work culture where every step matters for product reliability and for those who use it on the field.

    Our team follows guidance set by national chemical safety agencies as well as global standards such as ISO 9001 and Responsible Care commitments. We document each synthesis run, and every outgoing batch carries a certificate of analysis built on duplicate testing for both active content and trace contaminants. This minimizes surprises in downstream applications and supports straightforward regulatory reporting.

    Local authorities and community groups often express concern over legacy arsenic contamination. The safety profile of propylarsonic acid reflects present-day stewardship—modern process controls have slashed arsenic impurities compared to early arsenic-based herbicides of the past century. Used according to recommendations, the risk of off-target impact is very low, and field-monitoring partners have confirmed that runoff and leaching remain within allowable limits. We update formulation guides in line with new research, including case studies submitted by academic collaborators.

    Feedback Shapes Each Batch We Make

    We build our product lines as practical answers to what growers and technicians share from their own fields. Contractors overseeing large acreages, for example, care about ease of mixing. Feedback from South American sugarcane cooperatives led us to focus on improving wetting properties; reports from wheat growers in Central Europe highlighted the need for better flow during automated dosing. Our technical team collaborated with users to tweak the particle-size distribution without sacrificing content or shelf life.

    We view traceability as more than a buzzword. Direct shipments from our facility to customers’ warehouses guarantee that nothing unknown slips into the package. Each batch number links to a digital record showing manufacturing date, lab results, storage conditions, and distribution pathway. Auditors or buyers can access this information at their request; regulatory staff use these records to speed up product registration or customs clearance. Our open-door policy with inspectors encourages ongoing best practices and fresh perspectives, which strengthens the industry as standards evolve.

    Shared Problems, Real Solutions

    We do not overlook the concerns raised by pesticide safety advocates, regulatory agencies, or farmers struggling with evolving weed resistance. Some ask if propylarsonic acid will remain effective as weed pressures change. Based on field monitoring, rotating this herbicide with alternatives helps reduce chances of resistance. Our consultation services help customers design sensible rotation schedules, relying on up-to-date science and decades of cumulative agronomic data. This includes analysis of stubborn weed populations and tailored recommendations for tank mixes or sequential sprays.

    For handlers who raise questions about storage or accidental exposure, we offer clear, detailed training on safe handling protocols as well as practical incident response planning. Drums arrive sealed and marked with the actual batch and analysis data. For those without onsite laboratories, we provide quick-strip field tests enabling immediate verification before application. This direct approach avoids delays and keeps application crews confident about material origin and suitability.

    Environmental stakeholders naturally query the molecule’s fate in soil and water. University-based research, in collaboration with our technical team, has shown that propylarsonic acid degrades through microbial and chemical processes in realistic use scenarios. Its breakdown rates, measured in both warm and temperate climates, allow farmers to use standard rotational crops without extra waiting periods. Our environmental monitoring partners supply ongoing data that help us improve instructions and respond swiftly if new findings suggest updated best practices.

    Investing in the Next Generation of Agricultural Chemicals

    We do not stop at meeting today’s demand for effective herbicides. Our R&D laboratories continuously assess crop management challenges. Genetic shifts in major weeds, climate-driven changes in rainfall, and advances in spray technology all drive our development choices. For propylarsonic acid, we test new co-formulations to link its proven activity with usability—be it improved cold-weather solubility for northern regions, or adaptation to new, precision-guided sprayers enabling finer droplet application and less off-target drift.

    Farmers looking to reduce operating costs frequently note the importance of application efficiency. Our in-house teams simulate real spraying patterns and calibrate our powder and pre-mix products for low-drift and minimal tank residue. This work reduces time spent cleaning equipment and limits the unplanned interruptions that cost time and money. In high-value crops or on diversified holdings, every saved hour counts.

    Industry and public expectations about chemical stewardship continue to rise. Our laboratory teams run ongoing screening for potential metabolites, extended residue studies, and chronic safety evaluations. Independent audits and third-party validations strengthen trust in our findings, ensuring product registrations remain in force and customers feel fully informed before each use.

    Supporting Customers Beyond the Product Itself

    Our relationships with clients do not end after shipping. Support teams remain reachable for advice on weed management strategies, regulatory shifts, or on-the-ground troubleshooting. We encourage large customers to trial new tweaks and share season-by-season feedback, which enriches our internal data and sharpens our recommendations. Site visits and demonstration plots give new users a chance to see real-world performance rather than relying only on laboratory data sheets.

    For operators in developing regions or in markets where agricultural inputs face scrutiny or import delays, we handle documentation and customizations. Locally adapted labeling, translations of technical literature, and regulatory filings all pass through our quality systems before release. Our staff participate in regional industry meetings to stay ahead of rule changes or market developments, relaying this guidance to clients in a timely way.

    Crop managers with specific sustainability certifications—such as organic buffer zones or compliance with local waterway protection—turn to us for guidance on integrating propylarsonic acid safely. We offer advice not only on label rates but on application timing, adjacent-crop sensitivity, and responsible disposal of empty packaging. These conversations help clients maintain both yield and certification status.

    Looking Forward: Continuous Improvement and Honest Dialogue

    We see every drum shipped as more than just a commodity. Farmers, contract sprayers, and agronomists tell us clearly: reliability matters. Our job as a manufacturer goes beyond perfecting chemical synthesis or meeting minimum specs. It rests on honest, practical dialogue with those facing seasons of uncertainty, pest surges, and shifting policy. By listening and adapting quickly, we align our product with the needs of both today’s producers and the criteria regulators require for tomorrow.

    Propylarsonic acid stands as a tool refined by real-world application and user-driven innovation. The work continues as we partner with growers and technical experts to document local performance, flag evolving risks, and test new product ideas. Each new growing season sharpens our commitment to producing chemicals that perform on the ground, fit evolving farming realities, and respect the health of the communities and landscapes we all share.

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