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P-Toluenesulfonic Acid Methyl Ester (CAS 80-48-8): A Technical & Industry Overview
P-Toluenesulfonic acid methyl ester—also called methyl p-toluenesulfonate or methyl tosylate—is an important sulfonyl ester widely used as a reactive intermediate in fine-chemical and pharmaceutical synthesis. With the CAS registry number 80-48-8 and the molecular formula C8H10O3S, it combines the electron-withdrawing sulfonyl group of p-toluenesulfonic acid with a methyl leaving group, making it one of the most reliable methylating and sulfonylating tools available to synthetic chemists.
This article covers the compound’s physicochemical identity, quality specifications, reaction chemistry, industrial applications, handling requirements, and supply considerations—drawing on publicly available scientific literature and the product documentation published by Jiaxing Jinli Chemical Co., Ltd.
1. Chemical Identity & Physical Properties
Methyl p-toluenesulfonate belongs to the class of alkyl arenesulfonates. The tosylate (Ts) leaving group has a very low pKa (~−1), making it an excellent electrophile in SN2 reactions. Under ambient conditions the pure compound is a colorless to light yellow liquid that solidifies near room temperature.
| Property | Value / Description |
|---|---|
| IUPAC Name | Methyl 4-methylbenzenesulfonate |
| Common Names | Methyl tosylate; Methyl p-toluenesulfonate |
| CAS Number | 80-48-8 |
| Molecular Formula | C8H10O3S |
| Molecular Weight | 186.23 g/mol |
| Appearance | Colorless to light yellow liquid |
| Melting Point | ≥ 24 °C |
| Boiling Point (approx.) | ~292 °C at 760 mmHg |
| Density (approx.) | ~1.19 g/cm³ at 25 °C |
| Solubility | Miscible with common organic solvents; hydrolyzes in water |
| Flash Point (approx.) | ~135 °C (closed cup) |
2. Commercial Quality Specifications
Industrial buyers require consistent purity to ensure predictable reactivity. The table below reflects the quality specification published on the Jinli Chemical product page for high-grade methyl p-toluenesulfonate.
| Parameter | Unit | Specification |
|---|---|---|
| Appearance | — | Colorless to light yellow liquid |
| Purity (GC) | % min | 98.0 |
| Melting Point | °C min | 24 |
| Water content (KF) | % max | 0.30 |
| Free PTSA (p-toluenesulfonic acid) | % max | 0.20 |
| PTSC (p-toluenesulfonyl chloride) | % max | 0.20 |
| Ash (sulfated) | % max | 0.05 |
The tight control on residual PTSA and PTSC is critical: free acid impurities can protonate sensitive substrates and catalyze unwanted side reactions, while sulfonyl chloride impurities interfere with nucleophilic substitution steps in API manufacturing.
3. Synthesis Routes
The most established industrial route involves direct esterification of p-toluenesulfonic acid (PTSA) with methanol under mild acid catalysis or in the presence of dehydrating agents. A second common approach uses p-toluenesulfonyl chloride (tosyl chloride, TsCl) reacting with methanol in the presence of a base such as pyridine or triethylamine to scavenge the liberated HCl. A simplified reaction scheme can be written as:
(p-Toluenesulfonyl chloride + Methanol → Methyl p-toluenesulfonate + Hydrogen chloride)
The esterification route is preferred at scale because it avoids the introduction of chloride into the product stream, which is particularly important in pharmaceutical intermediates manufacturing.
4. Reaction Chemistry & Mechanistic Role
4.1 Methylating Agent
The principal use of methyl p-toluenesulfonate is as a mild, selective methylating agent for nucleophiles including amines, alcohols, carboxylates, and thiolates. The tosylate anion (TsO−) is a superb leaving group: it is stable, non-nucleophilic, and readily soluble in polar aprotic solvents, enabling clean SN2 pathways with minimal E2 elimination byproducts.
4.2 Esterification & Acylation Assistance
Acting as an esterification agent or acylating reagent, methyl tosylate activates carboxylic acid equivalents toward ester formation. This reactivity has been documented extensively in the preparation of pharmaceutical building blocks where regioselective O-methylation is required.
4.3 Dehydrating Agent
In condensation reactions methyl tosylate can facilitate water elimination by sequestering hydroxyl groups, effectively driving equilibria toward the desired condensed product.
| Role | Reaction Type | Typical Nucleophile | Common Solvent |
|---|---|---|---|
| Methylating agent | SN2 alkylation | Amines, alcohols, thiolates | Acetonitrile, DMF |
| Esterification agent | O-acylation / esterification | Carboxylates | THF, DCM |
| Acylating reagent | N-acylation | Secondary amines | Pyridine, acetone |
| Dehydrating agent | Condensation | Hydroxyl groups | Toluene, dioxane |
| Sulfonylation source | O/N-sulfonylation | Phenols, anilines | DCM, acetonitrile |
5. Industrial Applications
As documented in the Jinli Chemical Intermediates Series, methyl p-toluenesulfonate serves as a critical building block across multiple end-use sectors.
5.1 Pharmaceutical Synthesis
The compound is used in the preparation of quaternary ammonium salts, N-methyl APIs, and prodrug methyl esters. Its controlled reactivity compared to dimethyl sulfate makes it a preferred methylating agent in GMP environments, particularly for the final-stage functionalization of drug molecules.
5.2 Agrochemical Intermediates
Selective O-methylation reactions using methyl tosylate underpin the synthesis of several herbicide and fungicide active ingredients where methyl ether linkages must be introduced without disturbing acid-sensitive functionalities elsewhere in the molecule.
5.3 Specialty Polymers & Materials
In polymer chemistry, methyl tosylate functions as an initiator or chain-end capping agent in cationic ring-opening polymerizations and in the preparation of ion-exchange resins, where precise control of chain-end functionality is essential.
5.4 Dyes & Pigments
Methylation of chromophore precursors using methyl tosylate introduces bathochromic shifts in azo and anthraquinone dye systems, a technique widely applied in textile and ink manufacturing.
6. Methyl Tosylate vs. Other Methylating Agents
Choosing the right methylating agent is a balance of reactivity, selectivity, safety profile, and cost. The table below benchmarks methyl p-toluenesulfonate against the most common alternatives.
| Agent | Reactivity | Selectivity | Toxicity / Hazard | Relative Cost |
|---|---|---|---|---|
| Methyl p-toluenesulfonate | Moderate–High | High (SN2) | Moderate; lachrymator | Moderate |
| Dimethyl sulfate | Very high | Moderate | Very high; carcinogen | Low |
| Methyl iodide | High | High | High; volatile carcinogen | High |
| Methyl triflate | Extremely high | Moderate | High; very corrosive | Very high |
| Trimethylsilyldiazomethane | Moderate | High (O-selective) | Moderate (toxic gas evolved) | High |
From a regulatory and process-safety perspective, methyl tosylate offers a meaningful advantage over dimethyl sulfate and methyl iodide in multi-step pharmaceutical synthesis, where genotoxicity risk assessments (ICH M7 guideline) are mandated for all alkylating impurities and reagents.
7. Safety, Handling & Regulatory Notes
Methyl p-toluenesulfonate is a potent alkylating agent and therefore a potential genotoxic impurity when present as a residual in finished drug products. The following precautions should be observed throughout processing and storage.
| Aspect | Guidance |
|---|---|
| Skin / Eye Contact | Corrosive; use chemical-resistant gloves, goggles, and face shield at all times |
| Inhalation | Work under local exhaust ventilation or in a fume hood; avoid vapor exposure |
| Storage Temperature | Store in a cool, dry, well-ventilated area below 25 °C; keep away from moisture |
| Incompatibilities | Strong bases, water (hydrolysis to PTSA + methanol), strong oxidizers |
| Waste Disposal | Alkaline hydrolysis prior to disposal recommended; comply with local regulations |
| GHS Hazard Class | Acute toxicity (oral, dermal); serious eye damage; suspected mutagen (GHS Cat. 2) |
| Genotoxic Impurity Threshold (ICH M7) | ≤ 1.5 μg/day (TTC for Class 2 cohort of concern in drug substance) |
8. Packaging, Storage & Supply Chain
For bulk industrial supply, methyl p-toluenesulfonate is commonly packaged in nitrogen-blanketed steel or HDPE drums to prevent moisture ingress and hydrolysis during transit. Typical commercial pack sizes range from 25 kg drums to 200 kg IBC containers for large-volume buyers.
Related intermediates in the same product family—available from Jinli Chemical’s Intermediates Series—include:
9. About the Supplier — Jiaxing Jinli Chemical Co., Ltd.
Jiaxing Jinli Chemical Co., Ltd.
Founded in 2002 and relocated in 2011 to the Zhejiang Province Zhapu Economic Development Park in the port region of Jiaxing city, Jinli Chemical occupies 22,000 m² of production and R&D space and achieves an annual output of approximately 19,000 tonnes across its product portfolio.
The company is a nationally recognized high-tech enterprise holding ISO 9001, ISO 14001, and ISO 45001 certifications. Its products are exported to the USA, EU, South Korea, Japan, and Southeast Asia. Jinli Chemical maintains academic partnerships with Zhejiang University of Technology and Jiaxing University, supporting continuous innovation in synthesis chemistry.
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Address: Intersection of Pinghai Road and Binhai Avenue, Jiaxing Port Area Chemical Park | Tel: 0086-573-85580888
10. Market Outlook
Demand for high-purity methylating agents in regulated pharmaceutical manufacturing continues to grow as generic drug pipelines expand in Asia and global CDMOs scale capacity. Regulatory pressure under ICH M7 and increasing adoption of green chemistry principles are simultaneously pushing formulators toward reagents with better safety profiles, a trend that favors well-characterized tosylate esters over legacy reagents such as dimethyl sulfate. Jinli Chemical’s investment in controlled-environment synthesis and rigorous quality testing—reflected in its ≥98% purity specification—positions it as a competitive supplier for this evolving demand profile.
For the latest company developments and industry analysis, visit the Jinli Chemical Industry News section.