|
HS Code |
114095 |
| Product Name | AR Isopropyl Ether |
| Volume Ml | 500 |
| Chemical Formula | C6H14O |
| Synonyms | Diisopropyl ether; Isopropyl ether |
| Purity Grade | Analytical Reagent (AR) |
| Cas Number | 108-20-3 |
| Molecular Weight | 102.18 g/mol |
| Appearance | Colorless liquid |
| Boiling Point Celsius | 68-69 |
| Solubility In Water | Insoluble |
| Density G Per Ml | 0.724 |
| Odor | Ether-like |
| Flash Point Celsius | -28 |
| Storage Conditions | Store in tightly closed container, cool and well-ventilated place |
| Applications | Laboratory solvent, extraction, organic synthesis |
As an accredited AR Isopropyl Ether 500ml factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | AR Isopropyl Ether 500ml is packaged in an amber glass bottle with a secure cap and clear labeling indicating quantity. |
| Container Loading (20′ FCL) | Container Loading (20′ FCL) for AR Isopropyl Ether 500ml: Securely packed bottles, optimized for safe transport and maximum container efficiency. |
| Shipping | The AR Isopropyl Ether 500ml is securely packaged in a sealed, chemical-resistant bottle, cushioned within compliant, protective materials. Shipping adheres to strict safety and regulatory guidelines for flammable substances, typically via ground or specialized courier. Delivery times and availability depend on destination and local hazardous material transport regulations. |
| Storage | AR Isopropyl Ether 500ml should be stored in a tightly sealed container in a cool, dry, well-ventilated area away from sources of ignition, heat, and direct sunlight. Keep it separated from oxidizing agents, acids, and moisture. Store at room temperature, out of reach of unauthorized personnel. Proper labeling and secondary containment are recommended to prevent leaks or accidental exposure. |
| Shelf Life | AR Isopropyl Ether 500ml 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 Isopropyl Ether 500ml with purity 99% is used in pharmaceutical intermediate synthesis, where it ensures high yield and minimal impurity formation. Viscosity grade low: AR Isopropyl Ether 500ml of low viscosity grade is used in chromatographic separation, where it enables rapid elution and precise fraction collection. Boiling point 68°C: AR Isopropyl Ether 500ml with boiling point 68°C is used in solvent extraction processes, where it allows for efficient solvent removal under reduced pressure. Stability temperature up to 80°C: AR Isopropyl Ether 500ml stable up to 80°C is used in chemical reaction media, where it maintains solvent integrity during exothermic synthesis. Water content <0.02%: AR Isopropyl Ether 500ml with water content less than 0.02% is used in moisture-sensitive reactions, where it prevents hydrolysis and product degradation. Low peroxide content: AR Isopropyl Ether 500ml with low peroxide content is used in Grignard reagent preparation, where it safeguards against unwanted side reactions. AR (Analytical Reagent) grade: AR Isopropyl Ether 500ml of AR grade is used in analytical laboratories, where it guarantees consistent results in titration and spectroscopic analysis. Density 0.725 g/cm³: AR Isopropyl Ether 500ml with density 0.725 g/cm³ is used in liquid-liquid extraction, where it promotes efficient phase separation and solute recovery. Refractive index 1.353: AR Isopropyl Ether 500ml with refractive index 1.353 is used in optical applications, where it ensures accurate calibration and performance in refractometric studies. Low residue after evaporation: AR Isopropyl Ether 500ml with low residue after evaporation is used in sample preparation, where it minimizes sample contamination for trace analysis. |
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Reliable solvents form the backbone of many laboratory processes and industrial syntheses. Through years of direct interaction with chemists and process engineers, we have seen how solvent consistency and purity impact daily results. Our AR Isopropyl Ether 500ml stands out because it offers a degree of purity that supports the most demanding analytical and preparative work. Analytical Reagent (AR) grade means every batch undergoes thorough verification, minimizing impurities that could introduce inconsistency in sensitive techniques or interfere with product isolation. With AR Isopropyl Ether, researchers can push for sharper separations, better extractions, and more predictable outcomes.
Every bottle contains 500 milliliters, sealed to preserve its integrity from production through delivery. The specific gravity, distillation range, and moisture content reflect the standards set over years of feedback from on-site laboratories. Small variances in water or residual alcohol can tip the balance during extractions, crystallizations, or mobile phase formulation. By refining our purification and packaging at each stage, we reduce contamination risk and volatility changes, so those working with chromatographic systems or moisture-sensitive reagents face fewer setbacks. The transparency in our labeling and traceability in our batch production give end-users more confidence.
Through our role as manufacturer, we routinely monitor both the incoming isopropanol and catalytic conditions needed for stable isopropyl ether generation. Moisture control stays crucial. Trace water—uncaught—alters solvent behavior and reduces performance in critical steps. Because of our meticulous onsite distillation and drying procedures, users typically observe low residual water content, which supports their need for reproducibility. Lab managers looking to run quantitative calibrations, or scale up a process for pilot studies, don’t want to adjust their methods to correct for unexpected impurities. Each bottle in the AR grade range reflects years of hard learning in both laboratory accident prevention and clean process management.
A large number of solvents circulate under the same generic names, but the underlying grades tell the real story. We have often received questions from research partners about whether technical, laboratory, or AR grade solvent will do the job. Isopropyl ether made for industrial degreasing, for example, rarely comes with the same distillation controls, limit-tested contaminants, or inert packaging as AR grade stock. Double distillation or additional drying agents—absent in lower-grade products—make a large difference in reproducibility, especially in HPLC and GC labs.
Because of our continuous feedback from end-users, we know that trace byproducts, stabilizer residues, or water left over from manufacturing plant lines can undermine laboratory protocols. Particularly when used in extraction of alkaloids, Grignard reactions, or for crystallizing agents, even a low slip in purity changes the composition and yield. With our certification process, impurities such as aldehydes, strong acids, peroxides, and residual alcohols remain at levels that won’t skew readings or cause unexpected reactivity. Analytical-grade packaging and a clearly documented shelf-life give working chemists reliable planning windows, helping them avoid unpleasant surprises during critical procedures.
Isopropyl ether’s main value lies in its performance as an extraction solvent, drying medium, or ingredient in specialized syntheses. In practice, we see its frequent use for separating aqueous and organic phases in plant alkaloid isolations, or as a mobile phase in some chromatography protocols. Because our AR product supports these roles with minimized impurities and predictable volatility, it gives greater ease in method transfer from development benchwork to production scale. Technical users have noted that crude solvents can leave behind colored impurities or peroxides, especially when stored poorly, so we maintain both production controls and packaging checks to prevent these outcomes.
Effective solvent performance goes beyond simple distillation. Each use-case may have its own tolerance window for non-volatile residues or stabilizers. Through years of customer feedback, we have refined our AR Isopropyl Ether to consistently perform in the most challenging separation and crystallization applications. The current formula minimizes residues that can otherwise precipitate during evaporation or disrupt downstream processing. Our process incorporates multi-point controls—water washing, drying over molecular sieves, and inert gas blanketing—resulting in greater batch stability. The acrylic cap and inert liner on every 500ml bottle prevent oxygen and moisture ingress, extending shelf life beyond typical technical grades stored in bulk containers.
Many in the research field require solvents that follow strict benchmarks, both for regulatory and publication reasons. Submitting data to peer-reviewed journals, passing GLP inspections, or validating a new reference method means every reagent must have well-documented characteristics. We understand that poorly specified solvents can slow down or jeopardize months of work, so we accompany every batch with a comprehensive analysis certificate, detailing impurity thresholds and run-to-run consistency. This transparency supports reproducibility and comparability between labs.
Some commercial suppliers focus on bulk commodity flow, favoring quick turnover rather than long-term reliability. As a manufacturer, we set our workflow closer to the needs of those developing new drugs, optimizing food safety protocols, or running forensic screens. The difference emerges sharply in solvent aging, where exposure to light, temperature cycles, or steel containers often leads to peroxide buildup. Our facility limits exposure at each stage—right from primary synthesis to vessel filling—so the final product supports ultra-trace analytics without unwanted artifact peaks or side reactions.
Several solvents claim overlapping roles with isopropyl ether, including diethyl ether and methyl tert-butyl ether. Each carries its strengths and limitations. Unlike diethyl ether, isopropyl ether presents a lower proclivity for peroxide formation, which matters greatly for those running long-term storage or exposed-to-air applications. We have found that our AR isopropyl ether, with low free water and alcohol content, allows plant extraction workers and laboratory staff to safely swap protocols with minimal loss in efficiency, gaining in both stability and handling safety. Its moderate volatility and distinct boiling range make it a preferred choice in applications where temperature control matters.
Some clients approach us after trying lower-grade solvents from third-party resellers. We have traced major performance differences back to inadequate distillation equipment or improper bottle capping by these suppliers. Every time we revisit our process—whether by internal audits or customer-driven testing—we return to the core principle that the laboratory technician deserves to know exactly what enters their glassware. By enforcing strict cleaning and filling procedures, our AR Isopropyl Ether sidesteps the recurring issues of degradation, unwanted reactivity, and interference from micro-impurities. It fits cleanly into workflows requiring precise reaction management, from academic research to quality assurance labs.
Over the span of decades, we have watched shifts in laboratory methodology, including the move towards automation, miniaturized scale, and greater focus on environmental impacts. Each shift prompted us to further refine our purification and bottling steps. Lab automation demands consistent volatility, since even slight drifts in evaporation rates can disrupt robotic liquid handlers. Small-volume users find the 500ml format fits both cost and storage constraints, especially in academic or startup laboratory settings. The AR specification ensures that small deviations never accumulate into significant errors.
Hazards remain present with any ether product, so we focus on bottle labeling and traceable lot records. Should a peroxidation incident or contamination event arise, users can quickly access supporting documents or trace possible points of exposure. Proactive risk management outlines best-practices for storage—tightly sealed, kept from light and heat—to help prevent product degradation. Over time this approach saves not just on solvent loss, but also reduces repeat analysis and costly rework, an insight we frequently share with incoming laboratory staff and students.
With broader attention on occupational safety and environmental stewardship, we constantly review findings from safety audits and incident reports across industries. Isopropyl ether presents unique storage and disposal needs, especially in scale-up or teaching environments. By limiting contaminant profiles and offering reliable batch history, we lower the overall chemical burden in waste solvent streams. Safe handling gets easier when purity guarantees mean fewer unforeseen side-reactions. As manufacturers, we invest in user training and distribute guides to highlight proper ventilation, spill management, and detection of degradation before it becomes an issue.
Our production teams, having experienced firsthand the difficulties arising from material mislabeling or batch inconsistencies, enforce exacting container checks and post-filling quality surveys. Several industrial clients noted sharp declines in laboratory incident rates when switching to AR grade solvents with robust batch documentation. Preparation for regulatory inspections focuses less on fixing mistakes retroactively, and more on maintaining continuity and reliability from the outset. This discipline–driven by team experience–flows directly to the end-user, supporting lab safety while promoting best-use practices in solvent management.
Feedback loops form a vital pillar of our product development. Direct accounts from analytical chemists, plant supervisors, and teaching lab coordinators inspire many of our stepwise improvements. One common insight from the field underscored the cost imposed by solvent variability—often discovered only after failed extractions, inconsistent chromatography, or product discoloration. In response, each improvement in water-removal, peroxide screening, or inert gas packaging comes with a rigorous batch validation involving real-user scenarios. This changes solvent use from a gamble to a decision based on trust. When technique evolution pushes for tighter windows, such as in pharmaceuticals or environmental trace analysis, our AR Isopropyl Ether delivers the tight, predictable performance our users require.
We actively engage with labs piloting new analytical methods—helping them document solvent impacts, troubleshoot unexpected benchmarks, and share this learning with other customers. Sometimes, a subtle shift in incoming isopropyl alcohol quality or a minor adjustment in purification temperature can impact the entire downstream batch. By maintaining strong supplier relationships, we keep input quality tightly controlled, detecting and correcting variations before they affect finished stock. End-users, in turn, receive solvent that matches their published data, removing ambiguity from their results and reducing unplanned method modifications.
For academic, pharmaceutical, or industrial groups working towards certification or new process registration, reagent consistency becomes more than a convenience. It secures the credibility of extensive workflows, ranging from instrument calibration to API characterization. As the direct manufacturer, we stand behind every bottle of AR Isopropyl Ether with transparent records, robust support, and a continuing effort to meet or exceed both domestic and international standards. Instead of seeing solvent as a mere commodity, our process treats it as an integral part of every successful experiment, method transfer, or scale-up production run.
Our customers’ ambitions and the risks associated with sub-standard solvents drive our daily improvements. Whether supporting safety audits, steering research toward anti-counterfeit outcomes, or increasing operational uptime, the AR Isopropyl Ether 500ml remains an example of applied manufacturing experience making a difference. We listen, adapt, and invest in the ongoing reliability of this essential laboratory tool, giving users the latitude to pursue their science free from avoidable chemical surprises.
