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4-Hydrazinylbenzenesulfonamide Hydrochloride

    • Product Name 4-Hydrazinylbenzenesulfonamide Hydrochloride
    • Alias Sulfanilhydrazide hydrochloride
    • Einecs 624-885-1
    • Mininmum Order 1 g
    • Factory Site Tengfei Creation Center,55 Jiangjun Avenue, Jiangning District,Nanjing
    • Price Inquiry admin@sinochem-nanjing.com
    • Manufacturer Sinochem Nanjing Corporation
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    Specifications

    HS Code

    242304

    Product Name 4-Hydrazinylbenzenesulfonamide Hydrochloride
    Cas Number 124879-17-8
    Molecular Formula C6H9ClN4O2S
    Molecular Weight 236.68 g/mol
    Appearance White to off-white crystalline powder
    Solubility Soluble in water
    Melting Point 210-215°C (dec.)
    Purity Typically ≥98%
    Storage Temperature 2-8°C (Refrigerated)
    Synonyms 4-Hydrazinobenzenesulfonamide hydrochloride
    Chemical Structure C1=CC(=CC=C1NN)S(=O)(=O)N.ClH
    Ph Of 1 Solution 4.0-6.0

    As an accredited 4-Hydrazinylbenzenesulfonamide Hydrochloride factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

    Packing & Storage
    Packing Amber glass bottle containing 5 grams, sealed with a screw cap, labeled with product name, quantity, hazard symbols, and manufacturer details.
    Shipping 4-Hydrazinylbenzenesulfonamide Hydrochloride is shipped in tightly sealed, chemical-resistant containers to prevent moisture and contamination. The package is labeled according to regulatory guidelines, with appropriate hazard symbols. It is transported under ambient conditions unless specified otherwise, with accompanying documentation and safety data sheets for safe handling during transit.
    Storage 4-Hydrazinylbenzenesulfonamide Hydrochloride should be stored in a tightly sealed container, protected from light and moisture. Keep it in a cool, dry, and well-ventilated area, ideally at 2-8°C (refrigerated). Avoid exposure to incompatible substances such as strong oxidizing agents. Store away from direct sunlight and sources of ignition. Clearly label the container and ensure proper handling procedures are followed.
    Application of 4-Hydrazinylbenzenesulfonamide Hydrochloride

    Purity 98%: 4-Hydrazinylbenzenesulfonamide Hydrochloride with purity 98% is used in pharmaceutical intermediate synthesis, where high product yield and minimal side-reactivity are ensured.

    Molecular weight 237.7 g/mol: 4-Hydrazinylbenzenesulfonamide Hydrochloride with molecular weight 237.7 g/mol is used in drug candidate development, where precise molecular incorporation optimizes pharmacokinetic profiling.

    Melting point 235°C: 4-Hydrazinylbenzenesulfonamide Hydrochloride with melting point 235°C is used in high-temperature chemical reactions, where thermal stability maintains reaction integrity.

    Particle size ≤10 μm: 4-Hydrazinylbenzenesulfonamide Hydrochloride with particle size ≤10 μm is used in solid dosage form formulations, where uniform dispersion enhances bioavailability.

    Water solubility 50 mg/mL: 4-Hydrazinylbenzenesulfonamide Hydrochloride with water solubility 50 mg/mL is used in aqueous preparative processes, where rapid dissolution improves process efficiency.

    Stability temperature up to 60°C: 4-Hydrazinylbenzenesulfonamide Hydrochloride with stability temperature up to 60°C is used in industrial-scale storage, where shelf-life extension is achieved under controlled conditions.

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    Certification & Compliance
    More Introduction

    Introducing 4-Hydrazinylbenzenesulfonamide Hydrochloride: A Practical Perspective

    Understanding What Sets This Compound Apart

    Anyone who has spent time handling a variety of chemical reagents knows each compound brings its own set of strengths, quirks, and challenges to the lab bench. 4-Hydrazinylbenzenesulfonamide Hydrochloride has started to catch the attention of researchers and industrial chemists for reasons that are both practical and a bit overdue. Sitting among other sulfonamide derivatives, this hydrochloride salt stands out for a few distinct reasons that show up in day-to-day use, not just on paper.

    Model and Specifications Grounded in Real Experience

    People who work closely with 4-Hydrazinylbenzenesulfonamide Hydrochloride quickly notice the appearance of a white to off-white crystalline solid, which hints at a certain degree of purity often demanded in research and manufacturing. The compound's molecular formula of C6H9N3O2S·HCl gets attention in bench protocols, but in my own laboratory routines, it's the reliable solubility in water that makes all the difference. Compared to similar hydrazine derivatives, this hydrochloride salt doesn’t clump or form troublesome precipitates under standard conditions, which keeps workflows moving and reactions on track.

    In terms of stability, shelf life has rarely let anyone down in proper conditions. This comes in handy for workshops or production settings that may not turnover stock every week. No one wants to reach for a key intermediate and discover it’s gone off or the packaging cracked due to humidity or slow, creeping degradation. Here, consistent results reflect the underlying quality.

    The Value of Consistency Over Gimmicks

    Over the last decade, chemical suppliers have filled catalogs with a bewildering range of functionalized sulfonamides and hydrazine derivatives. Not every new material makes daily life easier. Some are too specialized for broad adoption, others come with high price tags or tight handling restrictions.

    4-Hydrazinylbenzenesulfonamide Hydrochloride lands in a sweet spot for many users. It’s not the most exotic, nor the most basic. Its hydrochloride salt form steps up the game versus the free base or other salts, giving a reliable blend of chemical reactivity and manageable handling. Unwanted surprises — odd odors, poor shelf life, unpredictable moisture uptake — rarely crop up here. This is the sort of reliability that leads to repeat orders and a loyal following among experienced chemists. The cost remains competitive due to relatively straightforward synthesis routes, compared to rare earth catalysts or heavily modified ring structures flooding the specialty chemical market.

    Practical Uses: Workhorse Qualities in Synthesis and Research

    This compound sees regular action in synthetic organic chemistry, where its hydrazine group opens doors to a variety of transformations. In the pursuit of new pharmaceuticals or specialty dyes, the hydrazinyl group doesn’t just take up space on the molecule — it offers a jumping-off point for further modifications, reductions, and condensations. The presence of the sulfonamide moiety adds its own flavor, bringing both electron-withdrawing effects and increased polarity, which can help tune solubility or target binding in potential drug leads.

    From my experience, when a reaction calls for a hydrazine source that doesn’t drag along too many stability problems or byproducts, this hydrochloride salt wins out more often than not. In academic research as well as commercial pilot lines, the balance of performance and manageability keeps it in play. It shows up in protocols for new nitrogen-containing heterocycles, where the available nitrogen atoms unlock routes other reagents would complicate unnecessarily — especially compared to bulkier or more heavily protected substitutes.

    Handling and Safety: Learning from Real-World Scenarios

    Not every lab environment comes outfitted with the same ventilation, monitoring, or workforce training. What struck me early on was how forgiving 4-Hydrazinylbenzenesulfonamide Hydrochloride can be compared to more hazardous hydrazine analogs. The converted hydrochloride salt lacks the strong, often alarming odor and corrosive vapor hazard of liquid hydrazines. This doesn’t mean anyone should cut corners — local rules for handling hydrazine derivatives matter — but from a practical standpoint, most handlers report fewer headaches both figuratively and literally.

    Clean-up procedures, routine weighing, and standard mixing steps become more relaxed when working with a free-flowing, relatively stable solid. It means less nerve-wracking cleanup, fewer gloves ruined by tears or accidental spills, and less worry that an unnoticed fleck will spoil stock solutions or sensitive experiments. Regulatory landscapes keep evolving, and safety data sheets reflect genuine hazards, but I’ve witnessed far less trouble with this salt than with some breath-catching, high-vapor-pressure alternatives.

    Comparisons: Looking Beyond Spec Sheets

    More than a dozen similar hydrazine and sulfonamide compounds compete for attention in research-grade and industrial markets. The key difference that emerges with 4-Hydrazinylbenzenesulfonamide Hydrochloride isn’t just in analytical purity numbers or pricing. For me, it’s the compound’s day-to-day predictability. The hydrochloride form adds robustness without needing costly add-ons or awkward storage. Colleagues juggling specialty synthesis, process verification, and mid-scale batchwork have remarked on the ease of cleanup, lowered contamination risks, and smoother project timelines.

    Switching to alternatives often means a trade-off: greater reactivity brings extra regulatory headaches, while some “eco-friendly” versions lag in reaction efficiency. The sulfonamide component in this case supports a fine balance between reactivity and control, often showing less background reactivity and less generation of nuisance byproducts. Environmental management professionals appreciate the relative ease of neutralization and disposal, which doesn’t burden waste streams with persistent contaminants or volatile organic emissions.

    Quality Control: Small Details with Big Impact

    Quality in the chemical world often reveals itself under stress. I’ve sat through long runs of quality testing for assorted hydrazine salts, and time after time, small impurities or variable crystal sizes doom what looks good on a spec sheet. For 4-Hydrazinylbenzenesulfonamide Hydrochloride, consistency shines through. The batch-to-batch reproducibility cuts down on troubleshooting and adjustment. Even simple dissolution checks routinely line up with supplier claims, forgiving minor deviations in water quality or temperature.

    Researchers working toward regulatory submissions or scale-ups often confess frustration when minute quality lapses trigger failed validation or additional rounds of purification. In my lab, this compound stood up through humidity changes, back-to-back syntheses, and lengthy storage, with performance that doesn’t sag over time. That’s the sort of confidence that becomes a difference-maker for advanced manufacturing settings or tightly scheduled research projects.

    Sourcing and Access: Real-World Choices Matter

    The question of who supplies what, and at what price, always becomes personal at some point. For chemists on tight budgets or in need of dependable resupply, commodity options tempt with their lower costs, but sometimes expose themselves as unreliable or impure. Bulk procurement options abound, but seasoned users prioritize credibility and verification.

    In practice, reliable distribution channels make all the difference. Labs that have grown to depend on 4-Hydrazinylbenzenesulfonamide Hydrochloride often maintain relationships with trusted sources, emphasizing established quality control and batch documentation over rock-bottom pricing. This approach lines up with the E-E-A-T standards that dominate chemical safety and verification today. It isn’t just about minimizing cost per gram — it’s about minimizing headaches and safeguarding outcomes.

    Across my own network, teams insist on third-party verification and transparent quality reports; this trend only accelerates with time. No one wants to find out a critical material passed through untracked intermediaries, or pick up a shipment that fails critical purity tests. Close attention to sourcing pays off in smoother regulatory compliance, lower incidence of bottle recalls, and faster project execution.

    Support for Innovation: Small Compounds with Big Impact

    While blockbuster molecules get press coverage, innovation in chemistry often relies on overlooked intermediates. In recent years, a steady stream of publications has underlined how compounds like 4-Hydrazinylbenzenesulfonamide Hydrochloride unlock new synthetic pathways. In pharmaceutical R&D, teams look for building blocks that fit regulatory needs, reduce hazardous byproducts, and streamline downstream processing. This compound checks those boxes.

    I’ve followed its deployment in small-scale medicinal chemistry through scale-up for intermediate supply chains. In both settings, it helps unlock complex nitrogen-rich ring systems, expand possible side-chain variation, and deliver scaffolds for anti-cancer, anti-infective, and CNS-active molecules. Even outside drug work, it shows up in dye development, where precise tuning of reactivity enables fine color adjustment and binding strength.

    This compound encourages process simplification. Instead of stacking multiple protective groups or complex reaction steps, researchers employ this hydrochloride salt to speed things up. This doesn’t just save labor — it saves months of validation and expensive troubleshooting. I’ve watched projects cut weeks off development timelines through cleaner, more manageable intermediates like this one.

    Solutions for Everyday Laboratory Hurdles

    Talk of “solutions” sometimes rings hollow for those on the ground. The reality for many researchers and technicians is a crowded shelf, a tight deadline, and a long day managing uncertainty. Throughout my own projects, reviewing which reagents to reorder and which to phase out spills over from cost-benefit calculation into practical wisdom picked up from shared experience.

    Reliable compounds like 4-Hydrazinylbenzenesulfonamide Hydrochloride solve problems not just with their chemistry, but in their predictability. Fewer unexplained bumps in a chromatogram, less need for double-checking lot numbers, fewer backup steps “just in case.” This contributes to morale and trust across an entire team. The compounding effect of steady performance, matched to robust documentation and support, lifts everything from undergraduate lab classes to multi-million-dollar pharmaceutical pilot programs.

    The compound also fits into sustainability drives without needing grand gestures. Simple tools for neutralization of waste streams, minimal off-gassing, and manageable dilution for deactivation have made compliance less painful. Colleagues in environmental management appreciate this, as it leads to fewer late-night compliance checks and less paperwork downstream. One environmental chemist told me they spend less time handling regulatory surprises and more time pushing innovation — not something every chemical intermediate can claim to enable.

    The Evolution of Chemical Supply: Looking Ahead

    Today’s chemical landscape faces scrutiny from more directions than ever. Researchers, regulators, and sustainability advocates all look for intermediates that thread the needle — capable in the lab, reasonable for the environment, approachable for health and safety teams, and scalable for industry. It’s become rare to find a compound that shows such balance across departments.

    Drawing on direct conversations with innovation managers, procurement specialists, and regulatory consultants, the consensus suggests that 4-Hydrazinylbenzenesulfonamide Hydrochloride has earned its place over time, not through splashy marketing but by consistent utility. Mature markets don’t shift overnight, but as legacy molecules face tighter restrictions or supply shocks, new mainstays emerge up the list. It hasn’t gone viral the way lithium salts did with the rise of battery demand, but among informed users, its reputation continues to grow.

    Common Questions: Lessons from the Field

    Colleagues often ask about side-by-side performance in existing reaction protocols. In my own work and casual conversations at conferences, the verdict always comes back to reliability under pressure. If an experiment demands tight control of yields and minimal troubleshooting, this compound rates well above average. Differences in yield, purity, and handling trouble are reported much less frequently than with some new-to-market alternatives.

    Questions about toxicity or waste management come up in nearly every procurement meeting now. Real-world feedback says the hydrochloride salt form heads off many of the headaches attached to free hydrazine or more volatile analogs. Partnering with experienced waste handlers, labs ensure deactivation and minimization align with updated environmental rules, without extra headaches introduced by more exotic materials.

    Bringing It All Together: A Compound for Those Who Rely on Results

    There’s no secret sauce behind the continued adoption of 4-Hydrazinylbenzenesulfonamide Hydrochloride across research, manufacturing, and even teaching labs. Practicality keeps it on the purchasing list. Its unique mix of reactivity, stability, and user comfort has earned loyalty through years of side-by-side comparisons. Seasoned chemists rarely find themselves let down by its shelf performance, handling, or outcome predictability.

    As someone who values honesty and performance above hype, my own endorsement comes as much from what doesn’t go wrong as what does go right. Every missed delay in synthesis, every clean product without repeat purification, and every straightforward safety deactivation confirms the staying power of this hydrochloride salt. It’s a case study in how the right level of functional stability and cost savings comes to matter more than ever for labs under constant pressure.

    The Bigger Picture: Supporting Efficiency, Compliance, and Progress

    Chemistry, at its best, advances through incremental gains supported by strong foundations. Each reliable reagent helps clear the road ahead for longer-term projects and ambitious targets. For everyone from the solo researcher to the production line foreman, 4-Hydrazinylbenzenesulfonamide Hydrochloride continues to provide that sense of solid footing — where predictability isn’t just a bonus, but an essential contribution to moving science, technology, and business forward.

    As research moves toward more sustainable practices and tighter regulatory oversight, the demand for truly dependable intermediates grows. This compound’s blend of manageable risk, approachable cost, and proven reliability helps teams focus on what matters most: discovery, development, and progress. Labs that rely on substance over flash, and on track records over trendiness, increasingly find this compound meets and often exceeds the daily challenges of modern chemical science.