|
HS Code |
250812 |
| Chemical Name | Hydrogen Peroxide |
| Concentration | 30% |
| Grade | Guaranteed Reagent (GR) |
| Cas Number | 7722-84-1 |
| Molecular Formula | H2O2 |
| Appearance | Colorless liquid |
| Odor | Slightly sharp, characteristic |
| Density | 1.110 g/cm³ at 20°C |
| Boiling Point | 108°C (decomposes) |
| Solubility In Water | Miscible |
| Storage Temperature | 2-8°C (Refrigerated) |
| Ph | Acidic (2-4) |
| Oxidizing Properties | Strong oxidizer |
| Decomposition | Decomposes to water and oxygen |
| Container Material | Plastic or amber glass |
As an accredited GR Guaranteed Reagent Grade 30% Hydrogen Peroxide factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | A 500 mL amber glass bottle with screw cap, labeled “GR 30% Hydrogen Peroxide,” includes hazard symbols and chemical details. |
| Container Loading (20′ FCL) | 20′ FCL can load approximately 1,200 x 30L plastic drums of GR Guaranteed Reagent Grade 30% Hydrogen Peroxide, palletized for export. |
| Shipping | GR Guaranteed Reagent Grade 30% Hydrogen Peroxide is shipped in tightly sealed, approved containers to ensure stability and safety. It is packaged with appropriate hazard labeling and shipped in compliance with chemical transport regulations, including restrictions on temperature and handling, due to its strong oxidizing and corrosive properties. |
| Storage | GR Guaranteed Reagent Grade 30% Hydrogen Peroxide should be stored in a cool, well-ventilated area, away from direct sunlight and sources of heat or ignition. Keep the container tightly closed and upright in a secure location, separated from combustible materials, organic substances, and acids. Use only containers made of compatible materials like plastic. Avoid contamination, as impurities may cause hazardous decomposition. |
| Shelf Life | GR Guaranteed Reagent Grade 30% Hydrogen Peroxide typically has a shelf life of about 1-2 years when stored properly, sealed, and cool. |
|
Purity 30%: GR Guaranteed Reagent Grade 30% Hydrogen Peroxide with purity 30% is used in analytical chemistry laboratories, where it ensures consistent and reproducible oxidation results. Stability temperature 2-8°C: GR Guaranteed Reagent Grade 30% Hydrogen Peroxide with stability temperature 2-8°C is used in biomedical sample preparation, where it maintains decomposition stability for accurate results. Low ionic impurities: GR Guaranteed Reagent Grade 30% Hydrogen Peroxide with low ionic impurities is used in pharmaceutical grade synthesis, where it prevents contamination and ensures product quality. Trace metal content <1 ppm: GR Guaranteed Reagent Grade 30% Hydrogen Peroxide with trace metal content <1 ppm is used in trace analysis applications, where interference is minimized for precise measurements. Container type HDPE: GR Guaranteed Reagent Grade 30% Hydrogen Peroxide in HDPE containers is used in clinical testing facilities, where chemical compatibility prevents leaching and sample degradation. pH 2.5-4.5: GR Guaranteed Reagent Grade 30% Hydrogen Peroxide with pH 2.5-4.5 is used in microbiological decontamination, where optimal acidity enhances microbial kill rate. Stability under light-protected storage: GR Guaranteed Reagent Grade 30% Hydrogen Peroxide with stability under light-protected storage is used in industrial etching processes, where prolonged shelf life ensures consistent process performance. Water content controlled: GR Guaranteed Reagent Grade 30% Hydrogen Peroxide with precisely controlled water content is used in high-purity electronics cleaning, where it prevents residue deposition on sensitive components. CAS No. 7722-84-1: GR Guaranteed Reagent Grade 30% Hydrogen Peroxide, CAS No. 7722-84-1, is used in environmental monitoring laboratories, where standardization enables regulatory compliance and data integrity. |
Competitive GR Guaranteed Reagent Grade 30% Hydrogen Peroxide prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615380400285 or mail to sales2@liwei-chem.com.
We will respond to you as soon as possible.
Tel: +8615380400285
Email: sales2@liwei-chem.com
Flexible payment, competitive price, premium service - Inquire now!
Working directly as a chemical manufacturer, the reputation of each batch sets the foundation on which research, education, and analysis stand. With decades behind us in peroxide synthesis, we know how unforgiving contamination or inconsistency can be. That’s why the hydrogen peroxide bearing the “GR” Guaranteed Reagent label is far from a commodity product for us. Each gram, each drop, carries the weight of scientists depending on honest, traceable chemistry.
Our 30% Hydrogen Peroxide, GR Guaranteed Reagent Grade, represents both stringent purity targets and batch oversight from start to finish. This is not an unregulated industrial-grade solution. It isn’t a watered-down consumer product. 30% is right in the sweet spot offering both handling manageability and chemical strength. Model variations aren’t dictated by market trends; they’re a direct answer to what rigorous experiments demand from their oxidizing agents.
Every batch of GR Guaranteed Reagent Grade 30% Hydrogen Peroxide begins with carefully inspected raw materials. Our process doesn’t treat hydrogen peroxide as a volume commodity. The water entering the plant meets the same rigorous analysis as the peroxides that leave it. Deionized and filtered, it ensures no rogue ions or organic residues skew final results for downstream users.
Manufacturing is a stepwise progression, not a simple dilution. 30% concentration comes with real handling risks. At our scale, safe handling is not a checkbox; it’s an everyday reality reinforced through training, controlled equipment, and double verification. Electrochemical synthesis yields the most reliable source material, minimizing trace contaminants. Once concentrated and stabilized, each lot undergoes titration, targeted tests for common environmental ions, and UV/visible analysis for photo-reactive impurities. Laboratories using this peroxide can reference our actual certificate of analysis, not just guess at batch purity.
Hydrogen peroxide naturally decomposes and absorbs molecules from its surroundings. Industrial peroxide for pulp or textile might tolerate metallic ions; water analysis, histology, plant tissue culture, and semiconductor industries cannot. One example—trace iron in a cleaning solution will ruin a spectrophotometry run. That’s where our process differs. Routine standards for inorganic ions such as iron, copper, and manganese remain stricter than most competitors’. The guaranteed reagent label signals real-world traceability all the way back to the earliest QA checkpoint.
For biological users, the absence of stabilizers or surfactants means the activity of GR Guaranteed Reagent Grade 30% Hydrogen Peroxide stays predictable in sensitive reactions. Our product avoids peracetic acid cross-contamination common in recycled grades. Our grade doesn’t mask stability problems with excessive tin or phosphates and steers clear of EDTA-type chelants unless specified.
Lab professionals know 30% is the workhorse for oxidation without the extremes of 50% or higher concentrations. In situ chemical oxidation, DNA extraction, trace residue digestion, seed germination, and wastewater sample prep all benefit from 30% peroxide. Excess reagent can be diluted for lower-concentration cleaning or reaction protocols. Analytical chemists often rely on this grade for redox titrations, where accuracy is checked daily.
In histology, 30% Hydrogen Peroxide decolorizes stains and prepares glassware for critical use. Our product meets these expectations with minimal peroxide breakdown products or container leaching even over mid-term storage. Academic and commercial labs alike lean on us because the properties of each lot remain equivalent every time, even after extended shelf periods when handled as directed.
We’ve witnessed customers new to regulated lab operation try to cut corners with industrial or technical-grade peroxide. The biggest difference they notice isn’t only purity, but consistency. Technical grades may vary from drum to drum or day to day. Stabilizers, metallic residues, or even detergents often sneak in during production and bottling. Over years of manufacturing, fielding urgent support calls from scientists with compromised runs has reinforced our commitment to single-use cleanliness and no-fail QA chains.
Our 30% Reagent Grade isn’t stabilized for industrial bleaching, nor is it buffered for cosmetic applications. You won’t find fragrances, polymer thickeners, or agents meant to mask cloudiness. We manufacture under ISO-certified protocols and batch-release protocols purpose-built for analytical applications. Product lines for surface disinfection or water treatment come from unrelated streams, with their own process controls and grades.
Packaging might seem like a minor detail, but those using hydrogen peroxide at this grade recognize the importance of high-density polyethylene bottles tested for leachables. The inner surfaces are pre-rinsed and conditioned to avoid introducing any organics or carbon residues that can skew spectrophotometric or chromatography results. Shelf lives are studied, not assumed, and the batch numbers printed on each bottle correlate back to multiple points of process documentation.
Longstanding relationships with universities, water testing labs, and pharmaceutical researchers drive us to keep refining what a lab-grade product means. End users expect transparency and traceability. Our QMS includes open records on raw material lots, cross checks with international benchmarks for reagent chemicals, and external audits that examine how results are verified after every manufacturing cycle.
Hydrogen peroxide decomposes to water and oxygen. On paper, this seems simple. In application, even nanograms of stray metals, organics, or residual processing agents featuring in the wrong step can unravel years of assay validation. Through conversations and data exchange with analytical chemists, purification teams, and policy advisors, we’ve continued to refine our peroxide to bridge between academic accuracy and real-world affordability.
Every season brings new raw material sourcing risks—regional water pollutants, unexpected supply chain impurities, and ever-rising demand for higher assessment standards. Trace metals, often invisible in bulk grade solutions, show up in advanced detection. High-concentration peroxide attacks equipment and gaskets, making cross-contamination a threat at every transfer stage. We’ve responded by updating filter media, reevaluating electrolysis inputs, and increasing frequency of random spot sampling.
A notable challenge comes from customer handling after bottles leave our dock. The product’s guaranteed stability assumes correct cold-chain or ambient shipment and dark storage. We work with lab managers to educate on peroxide-safe transfer, custom bottle volumes, and recalibration standards for dilution procedures. Cross-industry feedback underscores the need for agility—adapting documentation for regulators or responding to international test queries as new contaminants come into focus.
Research and regulation both demand reproducibility. Laboratories can’t justify conflicting results because of an oxidizer batch that “was probably fine.” Through our records and side-by-side validation runs, customers have caught discrepancies faster, recalibrated test kits more precisely, and avoided costly reruns of entire assay series. Unlike commercial or low-grade brands that treat hydrogen peroxide as “good enough,” we lean on the word “guaranteed” because our own labs put each batch through stress tests, from long-term stability to spectrometry at parts per million.
Our process controls have evolved alongside detection technology. Peer-reviewed journals and validation reports increasingly rely on batch traceability and documentation integrity. Automated reporting delivers not only compliance but also documentary evidence that can be referenced months or years after original delivery.
Feedback cycles don’t happen in a vacuum. We solicit and review customer input from analytical chemistry majors, environmental labs, seasoned toxicologists, and industrial scale process engineers. Their discoveries, pain points, and new research methodologies give us opportunities to refine our workflow, test additional impurities, and upgrade quality checkpoints. Sometimes a single outlier report triggers a full protocol overhaul.
Every improvement in batch consistency, shelf life, or education materials traces back to candid conversations with end-users who challenge our process and propose tougher standards for the next round. We’ve introduced secondary tests for emerging ions of concern and invested in newer, less reactive packaging materials after hearing real-world challenges from high-throughput labs.
Besides classic laboratory settings, semiconductor manufacturers, DNA sequencing teams, and seed germination researchers increasingly specify our 30% GR H2O2 because of its minimal background contamination. Electronic-grade hydrogen peroxide often builds on lessons learned through the strict protocols of chemical reagent manufacturing. By having our own on-site labs, we can develop side-by-side methods for water and ultra-trace residue detection, ensuring products for new and established industries keep up as analytical tolerances evolve.
Pharmaceutical validation teams use our reagent as a key oxidizer in the process of testing raw material resilience and stability. Through chain-of-custody documentation stretching from raw water to bottled product, these teams can include our data directly in regulatory filings. This level of transparency is rarely possible when intermediaries or third-party traders supply peroxide.
We’ve seen how consistent, pure hydrogen peroxide can be a deciding factor in scientific breakthroughs—when DNA test results agree across sites, when environmental samples provide trustworthy pollution tracing, when cell cultures in research labs grow without unexplained failures. Problems from impure peroxide don’t show up as an obvious warning label; they emerge as statistical noise, drift in long-term runs, or erratic calibration curves.
Recalls, wasted time, or project setbacks become less likely when researchers know what they're receiving every time. The value in transparency, supporting documentation, and open communication lines between manufacturer and lab doesn't just lie in peace of mind—it shows in published data, validated methods, and consistent global standards. This is where the true value of GR Guaranteed Reagent Grade 30% Hydrogen Peroxide comes to light.
Every certificate of analysis tied to our GR grade product provides batch-specific analytics, so regulatory auditors and internal QA officers can confidently trace any measurement or value back to our doorstep. For institutions aligning with GLP or ISO standards, this level of reporting offers more than compliance—it assures process reproducibility and continuous improvement.
We’re often called on to provide historical batch data for long-term studies or to clarify product specifications in the face of international import reviews. By retaining benchmarks on purity levels, stabilizer profiles, and background ion detection limits, we make complex documentation straightforward for lab managers and procurement agents who have zero margin for error. The trust built on consistency and documentation goes further than any sales pitch.
As chemistry and research fields change, we remain committed to evolving with them. Trends toward even lower detection limits, new sample prep protocols, and stricter regulatory oversight are not threats to circumvent but opportunities to improve. With direct manufacturing oversight, our process stays agile—ready to introduce next-generation packaging, invest in more precise detection, and implement feedback that emerges from real operator experience.
Our relationship with the scientific community thrives on this cycle of continuous improvement. As the definition of “reagent grade” grows stricter, so too does our resolve to represent what is possible with reliable hydrogen peroxide chemistry. Instead of resting on legacy formulas, we examine each change in research methodology, regulatory focus, and laboratory workflow to keep our standard at the front of the field.
Years standing at the reactor line, overseeing titration checks and reviewing batch sheets, have shown that the extra time and vigilance placed into each bottle of GR Guaranteed Reagent Grade 30% Hydrogen Peroxide pays dividends far beyond immediate sale. Colleges, startups, and industrial validation labs all share the same core requirement: they want to trust their chemicals. The difference between a smooth run and a lost week might come down to a single contaminant—present or absent because a manufacturer held themselves to a higher standard.
The next generation of researchers, educators, and technicians inherits this expectation of reliability. As manufacturers, we owe them not just high-performance chemistry but also genuine accountability. The work continues—one batch at a time. We welcome partnerships with those who share the same demands for trust, precision, and openness in chemical manufacturing.
