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HS Code |
724266 |
| Product Name | 4-Hydrazinobenzenesulfonamide Hydrochloride |
| Cas Number | 59-88-1 |
| Molecular Formula | C6H9ClN4O2S |
| Molecular Weight | 236.68 g/mol |
| Appearance | White to off-white powder |
| Melting Point | 245-255°C (decomposes) |
| Solubility | Soluble in water |
| Storage Temperature | 2-8°C (Refrigerated) |
| Purity | Typically ≥98% |
| Synonyms | Hydrazinobenzenesulfonamide hydrochloride, Sulfathiazole hydrazine |
| Pubchem Cid | 9682 |
As an accredited 4-Hydrazinobenzenesulfonamide Hydrochloride factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | White, opaque plastic bottle labeled "4-Hydrazinobenzenesulfonamide Hydrochloride, 25g," with hazard symbols and tightly sealed screw cap. |
| Shipping | 4-Hydrazinobenzenesulfonamide Hydrochloride is shipped in tightly sealed, chemical-resistant containers to prevent moisture and contamination. Transportation follows all relevant hazardous material regulations, including labeling and documentation. The product is kept at stable room temperature and protected from light. Safety data sheets accompany each shipment to ensure proper handling, storage, and emergency procedures. |
| Storage | 4-Hydrazinobenzenesulfonamide Hydrochloride should be stored in a tightly sealed container, protected from light and moisture. Keep the chemical in a cool, dry, well-ventilated area away from incompatible substances such as strong oxidizers and acids. Store at room temperature (15–25°C). Ensure appropriate labeling and follow standard chemical hygiene and safety protocols in storage areas. |
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Purity 98%: 4-Hydrazinobenzenesulfonamide Hydrochloride with 98% purity is used in pharmaceutical intermediate synthesis, where it ensures consistent yield and product reliability. Molecular Weight 237.67 g/mol: 4-Hydrazinobenzenesulfonamide Hydrochloride of molecular weight 237.67 g/mol is used in analytical standard preparation, where it provides accurate reference for mass spectrometry calibration. Solubility in Water 50 mg/mL: 4-Hydrazinobenzenesulfonamide Hydrochloride with solubility in water of 50 mg/mL is used in aqueous assay development, where it allows for efficient and homogeneous sample preparation. Melting Point 258 °C: 4-Hydrazinobenzenesulfonamide Hydrochloride with a melting point of 258 °C is used in high-temperature reaction screening, where it offers thermal stability and reduced degradation during processing. Stability at Room Temperature: 4-Hydrazinobenzenesulfonamide Hydrochloride stable at room temperature is used in chemical storage applications, where it maintains chemical integrity and minimizes risk of decomposition. Particle Size <10 μm: 4-Hydrazinobenzenesulfonamide Hydrochloride with particle size less than 10 μm is used in formulation of fine chemical reagents, where it improves dissolution rate and reaction kinetics. UV Absorption Maximum 275 nm: 4-Hydrazinobenzenesulfonamide Hydrochloride with UV absorption maximum at 275 nm is used in spectrophotometric assays, where it facilitates sensitive and selective detection in analytical protocols. Assay ≥99% (HPLC): 4-Hydrazinobenzenesulfonamide Hydrochloride with assay ≥99% (HPLC) is used in medicinal chemistry research, where high assay purity enhances reproducibility of experimental outcomes. Storage at 2–8 °C: 4-Hydrazinobenzenesulfonamide Hydrochloride stored at 2–8 °C is used in biological reagent preservation, where cold storage prolongs shelf life and maintains activity. Low Chloride Content <0.5%: 4-Hydrazinobenzenesulfonamide Hydrochloride with low chloride content (<0.5%) is used in sensitive biochemical reactions, where minimal ionic impurities prevent interference and optimize reaction performance. |
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Chemists and lab managers seek out materials that bring both precision and reliability to their work. 4-Hydrazinobenzenesulfonamide Hydrochloride, often abbreviated as HBSHCl, has carved out its place thanks to its distinctive molecular structure and consistent performance in chemical reactions. With the chemical formula C6H9N3O2S·HCl, it stands as a robust hydrazine derivative. This product distinguishes itself from other available reagents with its high solubility and reactivity profile, two qualities that can make all the difference when it comes to synthesizing complex molecules or testing analytical pathways.
The physical characteristics of 4-Hydrazinobenzenesulfonamide Hydrochloride back up its reputation. In labs, it’s recognized as a white-to-off-white crystalline powder with good stability under normal storage conditions. Purity levels usually land above 98%, something I’ve found especially reassuring during side-by-side comparisons with lower-grade alternatives. High-grade batches keep down contamination and side products—saving time and effort in purification down the line. With a molecular weight of approximately 239.7 g/mol, chemists can weigh and handle it with accuracy, avoiding the guesswork that lesser-quality chemicals sometimes invite.
4-Hydrazinobenzenesulfonamide Hydrochloride is more than just a shelf item in research or quality control laboratories. In organic synthesis, for example, I’ve seen firsthand how it supports the development of novel pharmaceuticals. The compound acts as a sensitive and tuned reagent, particularly in reactions that need a controlled reducing or nucleophilic agent. During method development, it’s shown a knack for generating target molecules without flooding reactions with unwanted byproducts. That reliability means fewer headaches during scale-up and repeatable results batch to batch.
Aside from its central role in research, HBSHCl makes a mark in analytical chemistry. In my own academic experience, a project looking at trace metal detection benefitted from this material’s selective reactivity. It lends itself to complexometric titrations and precise endpoint determinations thanks to its predictable interaction with metal ions. There’s a level of confidence that comes from knowing every successive titration or synthetic step won’t bring unwelcome surprises. Many titrants or indicators just don’t have that same track record of consistency.
In my early days in the lab, I remember wrestling with impurities and inconsistent outcomes from generic reagents. Comparatively, the dependability of 4-Hydrazinobenzenesulfonamide Hydrochloride prevents unnecessary troubleshooting. For research groups working under grant deadlines, or process chemists supporting production pipelines, dependable chemicals help maintain both pace and integrity in outcomes. With model numbers and batch references easily tracked, it’s also straightforward to trace any rare issues back to their source—a crucial part of reproducibility and transparency in research.
There’s also an environmental and safety aspect to the discussion. Products that minimize the need for purification help reduce overall waste. HBSHCl’s clean reactivity and consistent purity translate to lab protocols that don’t generate as much hazardous byproduct, supporting both sustainability goals and safer lab environments. Anyone who has spent time dealing with volatile or poorly characterized substances can appreciate the peace of mind that comes from a more predictable product.
Plenty of hydrazine derivatives crowd the marketplace, but differences in structure and purity levels matter. For example, hydrazine sulfate might offer a less expensive reduction agent, but tends to be less soluble and more restricted in its reaction scope. Sulfonamide groups, like the one on 4-Hydrazinobenzenesulfonamide Hydrochloride, enhance solubility and influence selectivity—a useful feature for anyone working in aqueous or polar organic media. In some earlier projects, I found that generic hydrazine compounds would bring along coloration or false readings. HBSHCl’s higher purity let me skip several wash steps and avoid loss of product.
Looking at availability, this compound is less common than everyday organic standards but gets preferential listing in catalogs aimed at pharmaceutical research or fine chemical synthesis. Some substitutes include benzene sulfonamide derivatives without the hydrazino function, but those typically lack the same reductive power. In terms of safety, some hydrazine compounds can present significant hazards due to volatility or toxicity. HBSHCl doesn’t have the lowest risk profile—hydrazine groups always call for caution and appropriate protective measures—but its stability and manageable handling make it preferable over raw hydrazine or more reactive analogues.
No chemical comes entirely free of hurdles. The hydrazino group, critical for this product’s reactivity, also underpins most safety concerns. Prolonged exposure requires serious personal protective equipment, and facilities must invest in proper ventilation and spill controls. I’ve learned the importance of working only with well-sealed containers and avoiding inhalation or skin exposure in any amount. Still, the rigorous attention to storage and delivery builds a culture of care in the lab, which serves everyone well long-term.
Disposal presents another sticking point, especially as regulations tighten worldwide around nitrogens and sulfur-based compounds. Most established labs already have protocols in place, but rising awareness around green chemistry encourages searching for reagents that produce minimal environmental impact. Here, the efficiency of 4-Hydrazinobenzenesulfonamide Hydrochloride comes into play again. By allowing chemists to use smaller quantities or run cleaner reactions, it helps cut down on hazardous material output from the very beginning.
Lab work thrives on trust. Inconsistent sourcing or subpar batches chip away at confidence in any workflow, especially in regulated fields like pharmaceuticals or environmental testing. 4-Hydrazinobenzenesulfonamide Hydrochloride earns its position through reliable batch documentation and traceability. Suppliers who provide comprehensive analysis certificates add another layer of safety and assurance, which is increasingly expected by those who work with academic or regulatory oversight.
Openness also means sharing information about shelf-life and compatibility. From my experience, storing HBSHCl in a cool, dry place extends usability, and periodic checks of reagent bottles prevent incremental decline in quality. Communication between end-users and suppliers, plus standardized test results, ensure any product distributed under this name actually meets documented specifications. It’s a relationship that works, as long as both sides treat accuracy as a shared priority.
Addressing challenges like handling risk and environmental footprint calls for practical solutions. Improved packaging and labeling—I've seen this make a tangible difference in keeping inadvertent exposure in check. Manufacturers now commonly use tamper-evident seals and improved closure systems to limit any contact. In the workplace, enhanced training programs reduce the chance for accidents, especially among junior chemists or staff unfamiliar with hydrazine chemistry.
In an industry where innovation never halts, sustainable chemistry offers a way forward. I’ve been paying attention to the push for using greener solvents with hydrazino reagents. In future, we may see adaptations in the synthesis of 4-Hydrazinobenzenesulfonamide Hydrochloride itself, relying on catalytic rather than stoichiometric pathways, or replacing problematic solvents with more environmentally benign ones. This continues the drive toward cleaner processes and less hazardous waste.
For academic labs, the ability to reliably purchase 4-Hydrazinobenzenesulfonamide Hydrochloride remains crucial. Students and researchers trying to explore new chemical space require tools they can count on. The same principle applies in pharmaceutical labs, where every stage of drug development builds on prior success. Investing in trusted reagents sets the stage for faster breakthroughs and fewer setbacks.
I’ve noticed that strong collaboration between researchers, quality assurance teams, and chemical suppliers strengthens the entire supply chain. Sharing feedback about unexpected side reactions or shipping conditions, as an example, informs future improvements. It’s this ongoing conversation that boosts reproducibility and innovation.
4-Hydrazinobenzenesulfonamide Hydrochloride isn’t just one more item in a chemical catalog. Its role in synthesis, analysis, and innovation reflects what’s best about the chemical sciences: persistence, precision, and the pursuit of something better. With a little care in use and an eye to sustainability, this compound helps researchers unlock new frontiers in chemistry and beyond. Whether troubleshooting a challenging analysis or scaling up a new reaction, the right tools matter—sometimes, even the smallest detail in a chemical’s makeup can tip the scales toward success.