|
HS Code |
307125 |
| Product Name | Hydroxylamine Hydrochloride |
| Grade | AR (Analytical Reagent) |
| Chemical Formula | NH2OH·HCl |
| Molecular Weight | 69.49 g/mol |
| Appearance | White crystalline powder |
| Purity | ≥99% |
| Cas Number | 5470-11-1 |
| Solubility | Soluble in water |
| Storage Conditions | Store in a cool, dry, well-ventilated area away from incompatible substances |
| Hazard Class | Irritant/Corrosive |
| Package Size | 50g |
| Melting Point | 151-152 °C |
| Odour | Odorless |
| Boiling Point | Decomposes before boiling |
| Un Number | UN2923 |
As an accredited AR Hydroxylamine Hydrochloride 50g factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The packaging for AR Hydroxylamine Hydrochloride 50g is a tightly sealed, labeled amber glass bottle, ensuring safe, moisture-free storage. |
| Container Loading (20′ FCL) | 20′ FCL (Full Container Load) for AR Hydroxylamine Hydrochloride 50g involves bulk packing, secure chemical containment, and strict regulatory compliance. |
| Shipping | The AR Hydroxylamine Hydrochloride 50g is securely packed in a sealed, chemical-resistant container to prevent contamination and moisture absorption. It is shipped in compliance with hazardous material regulations, including appropriate labeling and documentation, ensuring safe and prompt delivery. Handling instructions and safety data sheet (SDS) are included for user reference. |
| Storage | Store AR Hydroxylamine Hydrochloride (50g) in a tightly sealed container, away from direct sunlight and incompatible substances such as oxidizers and acids. Keep in a cool, dry, well-ventilated area, ideally at room temperature. Avoid sources of heat or ignition, and protect from moisture and air exposure. Clearly label the container, and store separately from food and incompatible chemicals. |
| Shelf Life | AR Hydroxylamine Hydrochloride 50g typically has a shelf life of 2-3 years when stored tightly sealed in a cool, dry place. |
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Purity 99%: AR Hydroxylamine Hydrochloride 50g with purity 99% is used in analytical chemistry procedures, where it ensures high accuracy in quantitative analysis. Melting Point 151°C: AR Hydroxylamine Hydrochloride 50g with a melting point of 151°C is used in pharmaceutical synthesis, where it guarantees product stability during reaction processes. Moisture Content ≤0.5%: AR Hydroxylamine Hydrochloride 50g with moisture content ≤0.5% is used in organic synthesis, where it minimizes side reactions and enhances yield. Chloride Content ≤0.02%: AR Hydroxylamine Hydrochloride 50g with chloride content ≤0.02% is used in electronic component manufacturing, where it prevents interference with sensitive circuitry. Particle Size <100 µm: AR Hydroxylamine Hydrochloride 50g with particle size less than 100 µm is used in fine chemical production, where it supports uniform dispersion and consistent reaction rates. Stability Temperature up to 40°C: AR Hydroxylamine Hydrochloride 50g stable up to 40°C is used in storage and transport of reagents, where it maintains chemical integrity and performance. Low Heavy Metal Content (<0.001%): AR Hydroxylamine Hydrochloride 50g with heavy metals below 0.001% is used in laboratory testing, where it eliminates contamination risks for sensitive assays. pH Range (1% solution) 3.0–4.0: AR Hydroxylamine Hydrochloride 50g with a pH range of 3.0–4.0 in 1% solution is used in dye manufacturing, where precise pH control optimizes color development. Assay ≥99.5%: AR Hydroxylamine Hydrochloride 50g with assay ≥99.5% is used in redox titrations, where high purity ensures reproducible results. Free from Organic Impurities: AR Hydroxylamine Hydrochloride 50g free of organic impurities is used in water treatment research, where purity maximizes treatment efficiency. |
Competitive AR Hydroxylamine Hydrochloride 50g prices that fit your budget—flexible terms and customized quotes for every order.
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Manufacturing fine chemicals means working with materials people rely on for accuracy and reliability. We know hydroxylamine hydrochloride from raw material order through final bottling—50g at a time, batch after batch. What stands behind those white crystals isn’t just a CAS number or a technical spec; it’s the daily discipline of sourcing, processing, testing, and delivering a compound with genuine assurance in every pack.
Anyone who has managed a synth, reduction, or analytical series in the lab has likely handled hydroxylamine hydrochloride at some point. Not all forms perform the same way. Our AR grade, packed in 50g portions, comes from controlled processes focused on purity and consistency. Over the years, we have spent countless hours tracing impurity profiles, tweaking drying environments, and reviewing reagent-grade approvals. We do this to keep the product sharp for sensitive applications—whether customers develop semiconductors, analyze food content, or run textile finishing processes.
Many labs settle for technical grades, and bulk chemical suppliers treat this compound as a commodity. Our AR grade starts with pharmaceutical-quality water and uses highest-spec hydrochloric acid—no recycled stream acids, no ambiguous byproducts. Every batch runs through high-resolution chromatography to watch for oximes, chlorides, or metals that can break product yields downstream. Most commercially offered hydroxylamine hydrochloride claims low ‘heavy metal’ content. We analyze even for rare interferences like copper or nickel below 1ppm, since even trace metals throw off reduction reactions in sensitive catalytic or pharmaceutical settings.
Many chemists ask why we still sell 50g bottles when bulk buys give better pricing per kilogram. Our answer: reliability and handling. At 50g, each unit comes from a master lot tracked not just for grade, but for storage life and opening frequency. Powders like hydroxylamine hydrochloride need airtight closure to prevent caking or moisture absorption, so we test seals with hygrometer checks, not just visual inspection. Some clients never use an entire kilogram quickly, and each time someone cracks open a 1kg can, they compromise freshness. With our 50g option, each bottle stays stable and reactive, right up to the last scoop.
Most synthesis failures linked to hydroxylamine hydrochloride can be traced to either poor storage or unstable supply. If you’re running an oxime synthesis on short notice, waiting days for a larger order can tank experiment timelines. With 50g bottles on hand—even for smaller or satellite labs—researchers keep work moving without writing off an entire batch to spoilage. Chemical shelf-life isn’t just about what’s on the label; it’s the result of micro-climate testing, temperature tracking, and humidity controls we run throughout our warehousing.
Making AR hydroxylamine hydrochloride always circles back to its core uses. For analytical chemists checking sugars in food or using it as a reducing agent, impurities matter. Even nonorganics or small traces of secondary amines spark unwanted reactions. Our production workflow involves staged crystallization, which helps remove both inorganic and organic contaminants. Customer feedback often notes how repeatable their results remain, especially when running standard calibration curves or batch process controls.
Users in microelectronics and photography development see a different side. Unwanted metal ions sometimes trigger streaking, odd “ghost” images, or precipitates. We have invested in non-metallic pipelines and chloride monitoring beyond simple regulatory requirements. These may seem like small details from a distance, but for manufacturers making imaging chemicals or surface treatments, the outcomes mean dollars and production deadlines.
Research departments and teaching labs value handleability as much as purity. Teachers appreciate when each bottle opens smoothly, pours easily, and fully dissolves for solution preparation. We optimize for a particle size that breaks up readily in cold water—a result of careful drying and filtration decisions in the plant rather than a rushed batch schedule. Feedback from university partners regularly shapes decisions about fill weight and bottle shape. Our focus has always been on practical results in the real world, which solidifies the trust technical buyers place in this product.
Outsourcing testing isn’t the same as investing in on-site analytics. We operate UV-Vis spectrophotometry, titration, and trace metal traceability in the same footprint as our main reactors. This gives us rapid feedback—something distant contract labs can’t match. Each 50g fill gets a random sample pulled per lot for loss-on-drying, particle size, and reactivity with standard reducing partners. Every run is backed up by shelf-life studies that span not just a few months, but up to two years, so labs can rely on performance even after extended storage.
Any deviation, even a 1-2% change in appearance or odor, triggers a root-cause investigation rather than a bland retest. Field failures get immediate pulls from inventory, not shuffled off to “remediation.” We connect directly with end users—not distributors—about what happened and how to resolve it. This boots-on-the-ground approach makes a world of difference for those who care about data integrity. Too many chemical suppliers brush aside small shifts as “within spec,” but anyone who relies on AR-grade chemicals knows that specs must reflect field realities.
Technical or low-grade hydroxylamine hydrochloride usually comes from multi-purpose reaction trains, where the product may see several lifecycles before packaging. Trace interferences sneak in, sometimes from shared lines or impurities in recycled feedstocks. Our line stays dedicated to AR and analytical fine chemicals. All plant workers train specifically to handle oxidizers, and we run separate air handling systems to keep cross-reaction risks minimal.
For anyone managing QC in a production or research space, the peace of mind with verified AR purity justifies the incremental cost. Rework, downtime, or failed experiments routinely cost more than a few dollars saved on a low-grade supply. We hear from partners especially frustrated by reduced yields, unexplained color shifts, or incomplete reductions when they try to save budget with generic alternatives. Some competitors offer “clean” specs, but when their clients run internal checks on sulfate or nitrate residues at the ppm level, inconsistencies sometimes appear. We lock down source validation and retest every major input with every new lot, not just those flagged by auditors.
Hydroxylamine hydrochloride isn’t just another white powder. Storage needs to deal with moderate hygroscopicity and a tendency to degrade if left in open exposure. In the plant, we control environmental humidity to under 30% before opening a barrel. All packing crew members receive annual training in chemical handling, spill response, and personal protection. These protocols do more than tick boxes; they reflect real hazards that have emerged in the industry, like minor runaway reactions or unsuitable disposal routes.
We specially design our packaging to limit static buildup, because crystalline hydroxylamine hydrochloride responds poorly to shocks. Every 50g bottle goes out in high-density, UV-opaque containers with clear batch numbering. Some clients want a deeper dive into reactivity—and we’re happy to consult on storage and transport. We see plenty of mistakes from the field traced to well-meaning, but poorly informed, opening or weighing practices. For instance, grabbing a scoop with a metal spatula can leave trace iron, which some downstream processes do not tolerate. Over the years, we’ve shared best practices with partners: plastic spatulas, no overfilling, prompt recapping, and proper secondary containment—all simple, real-world habits that reduce risk.
Regulations touch every part of our process. We keep detailed records of manufacturing steps, employee sign-offs, and batch test results that go beyond what local or international rules require. This is not only for internal audits. More customers than ever now ask about traceability to source and the full chain of custody, from raw input to final closure.
End users appreciate not just what’s in the bottle, but what didn’t get in. We maintain non-detection reports for common environmental pollutants and run quality checks for halogenated solvents, polyaromatics, and unwanted reactive byproducts. If issues crop up in external audits, we address them openly instead of hiding behind paperwork. Over time, this transparency reduces uncertainty for contract manufacturers, quality control labs, and academic researchers.
Honest documentation also helps clients with their own compliance—especially those shipping finished goods across borders. European, North American, and Asian buyers have different documentation standards and limits for specific substances. Instead of offering generic “globally compliant” claims, we deliver actual certificate breakdowns and supporting data for their region. This focus on real, actionable compliance means fewer surprises or delays for everyone, right down the supply chain.
Producing AR hydroxylamine hydrochloride at sustained quality year over year doesn’t happen by accident. What sets a reliable product apart is often not just the plant process but the ongoing dialogue with people who depend on it. Every month, we field technical queries and walk-throughs from customers facing new analytical challenges or procedural hiccups. Sometimes a chemical isn’t performing as expected—not because of a defect, but because of a new matrix, water hardness, or cross-contaminant in the local lab environment. We ask about solvent lots, instrument settings, and prior heat treatment, not just blame a bottle of powder. If someone needs custom drying or packaging, we engineer a fix rather than offer excuses.
Feedback loops from bench scientists have pushed us to rerun certain process steps—like tweaking drying cycles or extending stability checks from three months out to two years, based on real field observations. Safety data sheets get updates if we see trends in misuse, mislabeling, or inadvertent mixing. Sharing expertise means fewer headaches for everyone. The more we hear about customers’ equipment, ventilation, or lab routines, the more we tune what we deliver.
Science keeps moving. Even “basic” reagents like hydroxylamine hydrochloride get new use-cases every year. Researchers in green chemistry or advanced catalysis tweak classic methods, and our job is to listen and adapt. Once, a team working on innovative polymer reductions challenged us to cut residual sodium below 0.5ppm. Within weeks, we reevaluated our entire ion-exchange wash step, updated our purity profile, and documented the change so they could publish confidently. Production teams in textile finishing, facing tighter environmental standards, have asked for help drafting technical justifications for wastewater controls. We pick up the phone, share actual lab data, and sometimes even deliver test runs to help their engineers close the gap between regulatory theory and practical on-site performance.
No batch leaves the facility before final sign-off by someone with direct production and QC experience, not just a “batch release” rubber stamp. That direct connection between hands-on production and variety of applications builds the collective knowledge we offer. It’s reason enough for customers—new or returning—to open a fresh 50g bottle without second-guessing what’s inside.
What keeps a manufacturer honest is what happens after the purchase. Our accountability extends years beyond initial delivery. The consistency of hydroxylamine hydrochloride depends not just on current protocols, but on forecasting industry standards, environmental shifts, and evolving academic research. As sustainability pressures shift the rules around reagent production, we invest in cleaner chemical conversion processes, minimize emissions, and track potential improvements in waste minimization. Every time an industry shifts—toward greener solvents, closed-loop recycling, or new traceability laws—our team is already running controlled trials to see how those changes affect end users.
We pay as much attention to how our reagents are disposed of as we do to their manufacture. Hydroxylamine hydrochloride, handled improperly, can introduce pollutants or complicate effluent streams. Our technical support includes not only safe-use guides but also disposal and post-reaction clean-up tailored to real-world local requirements. This level of responsibility isn’t just about risk management—it’s a recognition that chemical manufacturing never ends at the loading dock. It travels all the way to the lab bench, the storage shelf, the analytics room, and the waste stream.
Years of hands-on work have shown that consistency and clarity make or break a chemical supplier’s reputation. Too often, we have seen avoidable experiment failures, QC outliers, or costly plant downtimes trace back to inconsistent supply or poor storage. By taking responsibility at every stage—from raw material intake, through rigorous process controls, to direct technical support for users—we do more than sell bottles; we solve persistent problems for the people who work with our product every day.
Our 50g AR hydroxylamine hydrochloride isn’t just another item in a catalog. It is the result of careful, thoughtful manufacturing for people who care about their results, their safety, and their projects’ success. The details matter to us because they matter in the real world—to everyone who opens a bottle with the expectation that what’s inside performs as promised, every single time.
