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HS Code |
702830 |
| Chemical Name | Hydroxylamine sulfate solution |
| Chemical Formula | (NH2OH)2·H2SO4 in H2O |
| Cas Number | 10039-54-0 |
| Appearance | Colorless to slightly yellow solution |
| Odor | Slight ammonia-like odor |
| Solubility | Soluble in water |
| Ph | Approximately 4.5–6.0 |
| Density | 1.15–1.25 g/cm³ (depending on concentration) |
| Boiling Point | Decomposes before boiling |
| Molecular Weight | 164.14 g/mol (anhydrous salt) |
| Storage Temperature | 2–8°C |
| Stability | Unstable, may decompose on heating |
| Hazard Classification | Corrosive, irritant |
| Uses | Reducing agent, analytical reagent |
As an accredited Hydroxylamine sulfate solution factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
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Purity 99%: Hydroxylamine sulfate solution with 99% purity is used in semiconductor wafer cleaning processes, where it ensures efficient removal of metal ion contaminants. Molecular weight 164.14 g/mol: Hydroxylamine sulfate solution with a molecular weight of 164.14 g/mol is used in reductive amination in pharmaceutical synthesis, where it promotes high conversion yields. Concentration 20% w/v: Hydroxylamine sulfate solution at 20% w/v concentration is used in photographic film processing, where it achieves rapid and uniform film development. Stability temperature <25°C: Hydroxylamine sulfate solution with stability below 25°C is used in analytical laboratories, where it maintains consistent reagent performance during long-term storage. Low iron content <10 ppm: Hydroxylamine sulfate solution with iron content below 10 ppm is used in electronics manufacturing, where it prevents substrate discoloration and ensures product quality. Viscosity 1.3 mPa·s: Hydroxylamine sulfate solution with viscosity of 1.3 mPa·s is used in chemical etching formulations, where it allows for precise control over etch rates. pH 3.5: Hydroxylamine sulfate solution at pH 3.5 is used in textile dye reduction processes, where it provides controlled and uniform dye stripping performance. Particle size <0.1 µm: Hydroxylamine sulfate solution with particle size below 0.1 µm is used in fine chemical synthesis applications, where it minimizes residue and improves product purity. |
| Packing | Hydroxylamine sulfate solution is packaged in a 500 mL amber glass bottle, featuring a tamper-evident cap and chemical hazard labeling. |
| Container Loading (20′ FCL) | Container loading (20′ FCL) for Hydroxylamine sulfate solution: Typically loaded in 1000L IBC tanks or 200L drums, ensuring secure, leak-proof, and compliant packaging. |
| Shipping | Hydroxylamine sulfate solution must be shipped as a hazardous material in compliance with applicable regulations (e.g., DOT, IATA, IMDG). It should be packaged in corrosion-resistant, leak-proof containers with proper labeling and documentation. Transport in tightly sealed drums or bottles, away from incompatible substances, under cool, well-ventilated conditions is essential. |
| Storage | Hydroxylamine sulfate solution should be stored in a cool, dry, well-ventilated area away from heat, sparks, and incompatible substances such as oxidizers and strong acids. Keep the container tightly closed and clearly labeled. Protect from physical damage and direct sunlight. Store at temperatures between 15–25°C (59–77°F) and avoid freezing. Use plastic or glass containers, not metal, to prevent reactions. |
| Shelf Life | Hydroxylamine sulfate solution typically has a shelf life of 1-2 years when stored in a cool, dry, and tightly sealed container. |
Competitive Hydroxylamine sulfate solution prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615651039172 or mail to sales9@bouling-chem.com.
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Hydroxylamine sulfate solution stands out in the portfolio of chemicals we manufacture, not because it is rare, but because delivering consistent, predictable performance in this product calls for deeply rooted expertise. Every kilogram of the solution that leaves our site comes out of a years-tested synthesis route based on robust process control and a real understanding of both the material and its downstream demands. The model we regularly ship keeps the active hydroxylamine content within tight tolerances, with each batch confirmed by rigorous, hands-on QC before tanks ever roll out.
We have seen the market fluctuate with a host of solid and aqueous hydroxylamine derivatives, but commercial users come back to this particular sulfate solution for one reason above all: it brings a solvated form ready for direct dosing, cushioning customers from the batch variability and handling risks of dry powders. As a manufacturer, we see these points play out daily on customer lines—uninterrupted reactivity, simplified valve metering, and minimal risk of harmful airborne dust. Crystal forms have their place, especially where concentrated shipment or space is tight, yet for continuous-feed systems and controlled reduction processes in electronics, pharma or fine chemical plants, the solution form supports modern process needs.
We offer hydroxylamine sulfate solution in standard concentrations often pegged between 40-60% by weight, but have also run successful campaigns at different strengths for customers hunting niche profiles. By sticking close to the raw material supply chain and staying dialed in to upstream purity, our teams tune each batch’s amine content, acidity, and trace metal profile—details that quietly matter when one is running high-purity synthesis or sensitive reduction. Long-term customers have told us that it’s the batch-to-batch regularity, not just the absolute numbers, that set our solution apart. There are no magic tricks in this process, just disciplined operations, years of know-how, and constant hands-on monitoring through each stage.
We draw on our in-plant analytical technicians and continuous improvement feedback from reactors to keep quality where it belongs. Our labs have invested in high-precision titration and spectroscopic techniques to make sure even subtle shifts in active content, sulfur residuals, or metal traces don’t drift past spec. You can open five drums sourced from different lots over a six-month span and expect real uniformity; that is testimony to a production approach refined over multiple plant campaigns, not just by leaning on third-party paperwork but through direct verification under one roof.
Across a variety of end uses, hydroxylamine sulfate solution shows its versatility. Many semiconductor fabs use it as a reducer in etching solutions; pharma and agrochemical synthesis teams value the clean conversion it provides in oxime and amide formation, and water treatment planners depend on its reductive properties for dechlorination or nitrite removal. Producing at this scale gives us a front-row seat to the technical adaptations these industries face. Folks handling circuit board etching or lithography in cleanrooms do not have patience for undissolved solids or slow dissolving granules, particularly when uptime is costed by the hour. They want to dial up a pump, set a flowrate, and let their PLC manage the rest until the tank runs dry. This solution supports those demands directly—no need to babysit mixing tanks or clean up stray dust.
The reason major hydrochemical integrators keep their tanks topped with our liquid sulfate variant boils down to operational risk. For chemical reactions involving sensitive intermediates or critical purification steps, the cost of a mischarged batch or a few ppm off-spec drops right down to the bottom line. We have scaled our process to meet high-volume demands from electronic filtration to batch syntheses in pharmaceuticals, knowing that for every use, downtime or deviation means lost productivity. Over many years, we continued to evolve the filtration and packaging process, ensuring compatibility with stainless or lined steel, high-grade plastics, or specific pump types, based on detailed customer feedback.
On paper, hydroxylamine salts or aqueous blends can look quite similar to the sulfate solution. In daily manufacturing practice, differences emerge immediately. The chief alternative—a crystalline hydroxylamine sulfate or other salt—holds appeal for some because of shipping density and slightly longer shelf-life. Yet, handling dry powders in an industrial plant brings its own set of real-world risks: risk of inhalation, handling loss, hygroscopic clumping, and process variation. Workers prefer to move hose-ends and open sealed drums of liquid, not break up lumps or worry about static discharge with a solid prone to exothermic response.
The decision to offer the solution instead of a 100% dry solid was not only a matter of shipping; we saw how critical ease-of-use had become for high-throughput industries. Customers running continuous glass fabrication, API-production, or industrial water reclaim units spoke up about their headaches with other forms—how batch-to-batch reconstitution, inconsistent mixing, or airborne dust left product on the floor or in the air, not in their process where it belonged. By keeping the sulfate fully solvated, we keep its reducing activity consistent and deliver an easier route to automated dosing.
Some traders or third-party resellers will point to technical sheets and claim functional parity across all hydroxylamine grades based on bulk purity alone. That does not square with our own plant trials or with the daily experience of direct users. In feedback we capture from our long-standing industrial partners, these theoretical differences fade in importance compared to two realities: whether the liquid feeds cleanly and predictably, and whether every tank or drum meets the paperwork specs without fail. The solution also reduces capital costs for users, removing the need for in-house dissolution tanks, additional dust controls, or specialized solid material handling.
We have watched companies try to move from solid to liquid, or liquid back to solid, chasing small cost savings in the paperwork. Our experience shows that, for continuous or large batch users, the small difference in the unit price is often wiped out by the increase in plant labor, waste, or batch failures that solid forms introduce. With the sulfate solution, maintenance and oversight go way down. This is partly why demand—especially among tech and life science manufacturers—keeps following the shift from solid to solution forms, even when market prices swing.
Manufacturing hydroxylamine sulfate solution directly offers a layer of supply-chain security that our customers cannot find with generic, diluted, or resold grades. By producing start-to-finish at our own site, each tank can be traced back to its precursor chemicals, reactor campaign, full batch sheets, final product analysis, and packaging run. In the event of any deviation—a rare event by design—we can dig into root cause down to the reactor log for a specific day, with all personnel still on-site who ran that shift.
Our team meets regulatory and internal compliance targets that often exceed published industry norms. We track raw material procurement, right down to inbound assay and trace contaminant monitoring. For users in high-stakes sectors—pharmaceutical, microelectronics, photographic chemicals, or advanced materials—we supply audit trails open to scrutiny. These are not just words on a page; they reflect a whole chain of trust, from procurement to final QC. If you operate a GxP facility or a plant where each deviation ripples up the supply chain, that traceability takes real “cost of risk” off your books.
Too many chemicals change hands repeatedly before delivery, with the end user’s oversight dropping at every link. Several industry incidents, some making headlines and others hushed up, have sprung from unidentified dilution, improper blending, or contaminated fill drums. By keeping tight vertical control over the synthesis and fill, we eliminate these gaps and bring surety to every customer—even if the batch goes around the world before use.
Continuous investment in process optimization sets a solid manufacturer apart from those simply rebottling imports. The design of our reactor vessels, agitation rates, temperature control, and downstream filtration stem directly from feedback in industrial use—real observations from process chemists and operators who know what can go wrong in a plant, not just what looks good on a spreadsheet. For example, tight control of pH through the entire reaction prevents not just off-spec product but premature decomposition of the active hydroxylamine. We use data trending from every campaign to spot subtle performance shifts before they reach the customer.
Operators on the plant floor have sometimes flagged small issues—just a hint of change in product color, a shift in pumping viscosity, or a slightly reduced batch yield. We treat every anomaly, however subtle, as a learning opportunity. Thorough root-cause analysis and incremental technical improvements have led to better corrosion controls, improved mother liquor filtration, and sharply reduced contamination risk.
From time to time, large-scale customers ask for custom concentrations or specialized packaging—for instance, to meet exotic process integration setups or strict environmental hazard labeling standards. Our direct-from-plant model means we can action these changes swiftly, without negotiating between multiple intermediaries or chasing after distant tollers. Through this kind of technical partnership, we worked with electronics fabs to design packaging that integrates directly with their automated feed systems, avoiding retransfer and potential exposure.
Every facility has its own approach to safety, but as the manufacturer, we have the firsthand view of hazards—managing them daily with live product, not just on a safety data sheet. Hydroxylamine sulfate solution demands vigilance: though more stable than pure hydroxylamine, its oxidizing and reducing properties shape every choice our operators make, from PPE to airflow. This concern guides our real-world guidance to end users as well. Storage should always mean secure, well-ventilated areas with sturdy, non-reactive drums or IBCs. We've added redundant venting on our own storage tanks and moved toward universally color-coded drums to prevent cross-contamination—the kind that can happen too easily with simple human error.
On the subject of disposal and spill response, our environmental and technical team works with customers to steer clear of outdated or hazardous legacy practices. For instance, we have phased in closed-fill operations and quick-connect transfer hoses to minimize vapor escape and spill potential. Our ongoing dialogue with users has rooted out habitual practices—like manual bucket transfers or open-top dilution—that once contributed to increased risk and occasional near-miss events. Each improvement, often thought up by experienced operators, folds back into our technical bulletins for all users to benefit.
Compliance with regional and international chemical management laws challenges every manufacturer, but direct production gives us early warning and greater flexibility. When new rules hit the books—whether related to environmental emissions, transport categorization, or downstream process controls—our technical and legal teams review these at the synthesis and packaging design level. In this way, the sulfate solution line evolves in sync with global norms. For instance, as requirements for reporting critical path contaminants in electronics supply chains have tightened, we have upgraded our handling processes, documentation, and even on-site waste mitigation accordingly.
Customers tapping into their own “know-your-supplier” and “track-and-trace” responsibilities have found the direct-from-manufacturer sourcing approach passes muster with their own audits, helping with everything from ISO certifications to export controls. The focus is always on transparent, proactive compliance, not retroactive paperwork battles or hurried reformulation.
Events of recent years have tested global supply chains. Throughout port closures, shipping gridlock, or upstream chemical shortages, direct manufacturing has given us more control and agility than resellers or just-in-time traders. We run strategic inventory of critical raw materials on-site, paired with real-time supply forecasting. Thus, we meet not just quarterly contract obligations but keep up with last-minute surges, plant turnarounds, or emergency orders.
Clients that have switched to direct supplier relationships from multi-tier trader routes have seen lead time and reliability improve. Where a trader might promise a drum pulled from various unknown sources, we provide a unit with total upstream traceability, packaged and certified within the same facility. This became mission-critical during transport or customs delays, where a direct documentation chain often clears hurdles quicker and with less uncertainty.
We have seen the full life-cycle of hydroxylamine sulfate solution—from pioneering early batches in smaller reactors to today’s streamlined continuous runs in fully contained plants. The market keeps evolving; ever-more technical downstream uses keep raising the bar for purity, handling safety, and support. Our operations continue to invest in new analytic equipment, advanced employee training, and constant process learning to keep our product relevant for the next generation of users. Feedback from frontline operators, not just procurement teams, shapes ongoing improvements and new offerings.
Ultimately, our direct manufacturing model earns trust through pure results: a solution that performs to spec in every tank, every drum, every campaign, year in and year out. Our biggest advocates are customers who have seen the difference—lower maintenance calls, less residue, quicker startup, and fewer deviations. That’s what keeps them coming back, not just the paperwork or the price.
In sharing our experience and the practical realities that set hydroxylamine sulfate solution apart, we invite prospective users to bring real production challenges forward. The conversation always starts with the chemistry—but it ends with solutions. As the direct producer, we're always at the bench, in the plant, and on the line—working to keep your process moving, safely and reliably.
