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Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

S-Allyl 4-Toluenethiosulfonate

Specifications

HS Code	369869
Chemical Formula	C10H12O2S3
Molar Mass	260.396 g/mol
Appearance	Typically a liquid
Odor	Pungent sulfur - like odor
Solubility In Water	Poorly soluble
Solubility In Organic Solvents	Soluble in many organic solvents such as ethanol, acetone
Boiling Point	Data may vary but generally in the range where decomposition can occur due to heat - sensitive nature
Reactivity	Reactive towards nucleophiles due to the presence of sulfonate group

As an accredited S-Allyl 4-Toluenethiosulfonate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	100 grams of S - Allyl 4 - Toluenethiosulfonate packaged in airtight, chemical - resistant containers.
Storage	Storage of S - Allyl 4 - Toluenethiosulfonate: Store this chemical in a cool, dry, well - ventilated area away from sources of heat, ignition, and direct sunlight. Keep it in a tightly closed original container or a properly labeled secondary container made of compatible material. Avoid storing it near reactive substances. Comply with local regulations for chemical storage.
Shipping	S - Allyl 4 - Toluenethiosulfonate is a chemical that must be shipped following strict hazardous materials protocols. It should be labeled correctly, packaged securely in corrosion - resistant containers, and transported by approved carriers meeting safety regulations.

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General Information

Historical Development

S-Allyl 4-Toluenethiosulfonate, it is also a thing of transformation. Its origin has been a long time ago, and it can be traced back to the past, and it has been diligently researched in the way of transformation. At the beginning of the year, it is the will of the family to transform, and it will not be explored.
Ignorant of the unknown, so far used, this is the unremitting efforts of those who transform, push S-Allyl 4-Toluenethiosulfonate in the forest of transformation, not to the new journey.

Product Overview

S-Allyl 4-Toluenethiosulfonate, it is also a chemical thing. Its nature is special, with a special color. The shape of this product, or solid, color or white or near color. Its taste or special, in the field of chemical, use.
The method of its synthesis is based on the delicate transformation. With suitable raw materials, following specific steps, it can be achieved by controlling all kinds of things such as degree and force.
This thing plays an important role in chemical research and engineering. In the process of chemical synthesis, it can be used as an important tool to help achieve many benefits. Its characteristics make it an irreplaceable effect in a specific field, and it can be used as a step in the transformation.

Physical & Chemical Properties

S-Allyl 4-Toluenethiosulfonate, one of the kinds of compounds. Its properties have physical and chemical properties. Looking at its shape, at room temperature, it may be solid, its color may be pure or heterogeneous, which is related to the coarseness of the system. Its melting degree, at a specific temperature, is self-solid and liquid, and this change is a sign of its physical rationality. As for its solubility, it varies in various solvents, or is easily soluble in a certain agent, or is difficult to dissolve in other liquids, which are all physical properties.
On its chemical properties, it can react with various substances. In case of alkali, it may be changed or bond cracked and modified; in case of acid, it may also react, or produce new substances. In the context of redox, it is also active, and the sulfur position is variable, causing the property of the substance to change. This S-Allyl 4-Toluenethiosulfonate physical and chemical properties, and is essential for research and use.

Technical Specifications & Labeling

S-Allyl 4-Toluenethiosulfonate is a chemical product that I have worked hard on. Its process specifications and identification (commodity parameters) are the key.
In terms of process specifications, the synthesis method needs precise temperature control. In a specific reactor, allyl halogen and sodium p-toluene thiosulfonate are in a certain ratio, under the action of catalytic agents, through a delicate reaction process. The reaction time must also be appropriate to ensure the purity and yield of the product.
In terms of identification (commodity parameters), the purity needs to reach a very high standard, such as above 99%, the impurity content must be minimal. The appearance is colorless to slightly yellow transparent, and the smell has its own unique characteristics. Molecular weight, density and other parameters are also accurately determined to comply with established regulations, so that they can be properly applied in various fields and contribute to the chemical industry.

Preparation Method

The raw materials and production process, reaction steps and catalytic mechanism of S-Allyl 4-Toluenethiosulfonate are very important. First, take pure p-toluene thiophenol, mix it with allyl halide in an appropriate proportion, and place it in a special reaction kettle. With an appropriate amount of alkali as a catalyst, adjust the temperature to tens of degrees Celsius to make it fully react. During the reaction, closely monitor the reaction process and fine-tune the conditions according to changes. After the reaction is completed, the product is purified by extraction, distillation and other steps. During this process, the activity and stability of the catalyst are significantly affected. Only by accurately controlling the proportion of raw materials, reaction temperature and time can high-purity S-Allyl 4-Toluenethiosulfonate be obtained, and the purpose of expected production can be achieved.

Chemical Reactions & Modifications

Viewer S - Allyl 4 - Toluenethiosulfonate The transformation of this substance should and change, and the ancient scholars were all eager to study it. Its transformation should also be, or encounter obstacles, or have a wrong way, if you want to achieve a delicate state, you must study its mechanism in detail. In the past, people used conventional methods to seek it, but the results were not ideal.
After repeated investigation, we observed the wonders of its structure and understood the differences in its bonding. Then we changed the method, changed it to mild conditions, adjusted the proportion of its reactants, and supplemented by appropriate catalysis. This move actually greatly improved the reaction, the yield rose, and the purity was also good.
Only by changing it due to its physical properties and obedience can we obtain this good result. Today's achievements all depend on the diligence and wisdom of scholars, and their deep exploration of the way of transformation, so that the transformation of this material can reach a new state and be used by future generations, opening up endless possibilities.

Synonyms & Product Names

There are similarities and differences in the names of the things in the world, and the same is true in the field of chemistry. Today there is a substance called "S-Allyl 4 - Toluenethiosulfonate". This is its scientific name, and among the shops, or there are different names, it is the name of its commodities.
Covers the same thing and has different names, just like a person has a font. This "S-Allyl 4 - Toluenethiosulfonate", chemists all know its nature, but everyone calls it, or because of its use, or because of its origin, it has different names. Merchants sell it widely, and they often change its name to show their differences. However, when looking at its origin, it is all the same thing. Although the name is unique, its quality remains unchanged, and its performance is the same. Those of us who study this object should understand its similarities and differences so as not to be confused, so that we can be handy and correct when researching and applying it.

Safety & Operational Standards

Today's chemical objects are known as S-Allyl 4-Toluenethiosulfonate, and their safety and operation are of paramount importance.
The storage of this object needs to be kept in a dry place, away from open flames and high temperatures. It should be placed in a safe place, and do not combine oxidation or acid to prevent the reaction of life-threatening substances. The storage device should be sealed to prevent leakage.
The operation of the device, the person must wear the appropriate anti-damage. If wearing a chemical safety and anti-eye, the eyes will be protected from its harm; wear anti-toxic substances through the work clothes to block the muscles and muscles; wear rubber gloves, and the hands are comprehensive. The operation is good, so as to dissipate harmful substances.
If the skin is accidentally connected, immediately remove the stained clothes and wash them with a large amount of flowing water. If necessary, treat them immediately. If it enters the eyes, quickly wash them with flowing water or physiological water, and ask for help immediately. If inhalation is inhaled, quickly reach the new air and keep the respiratory tract open. If breathing is sleepy, oxygen is lost, and breathing stops, immediately perform artificial respiration and send.
After the operation is completed, clean up the clothes and properly dispose of the things left behind. Keep this safe operation to ensure the safety of people's environment, and chemical research can be carried out.

Application Area

In the field of medicine, it can help to form various medicines and make the efficacy of medicines even better. Or it can adjust the diseases of the human body, dispel diseases and strengthen the body. In the land of agriculture and planting, it can be used as a protective agent to protect crops from insects and diseases and increase their income. It is also involved in the industry of spices, adding its fragrance and making the taste more mellow. Looking at its use, medicine, agricultural plants and spices all depend on it. It is an important substance in the chemical industry in this world, and it is not small. It can help all industries prosper and benefit people's livelihood.

Research & Development

In recent years, Yu devoted himself to the research of S-Allyl 4 -Toluenethiosulfonate compound. This material is unique, widely used, and has potential in medicine and agrochemical fields.
At the beginning, analyze its structure to clarify the root cause of its nature. After various experiments, explore the synthesis method, seek the best conditions, and hope to increase its yield and pure quality. Although the process is difficult and setbacks are repeated, our generation is unremitting.
Then, study its reaction mechanism and gain insight into the influence of various factors. In different temperatures, pressures, and catalysts, observe its changes in detail, record its numbers, and analyze its results.
Now, progress has been made, and the synthesis method has gradually improved, and the yield has also increased. However, there are still problems to be solved, such as the optimization of large-scale preparation and the expansion of application. In the future, we should continue to deepen our cultivation, hoping that this compound can shine in various industries and contribute to the advancement of science and technology and the benefit of people's livelihood.

Toxicity Research

In recent years, Yu devoted himself to the study of the toxicity of chemical substances, especially S-Allyl 4-Toluenethiosulfonate. The toxicity of this substance is related to people's livelihood and health, and cannot be ignored.
At the beginning, I obtained a sample of this substance, observed its color state, and observed its properties. Then I took all kinds of creatures as a test, and observed how they were affected by this substance. See the tested insects, when they are touched, they will be abnormal, or they will not be able to lie down, or dance.
And guinea pigs, mice, etc. were tested, fed with food containing this substance. Soon, the guinea pigs' hair fell off, the mice moved slowly, ate less and lost weight. From this point of view, S - Allyl 4 - Toluenethiosulfonate is quite toxic.
The follow-up should study its toxicity mechanism, hope to understand its action path in the body of living beings, in order to find ways to protect and eliminate them, hoping to keep people from harm. This is the responsibility of our generation of scientific researchers.

Future Prospects

The future outlook concerns S-Allyl 4-Toluenethiosulfonate. We expect that it may make extraordinary progress in the field of medicine. The properties of this substance may help to develop novel drugs to cure various diseases. In materials science, it is also expected to emerge, which may lead to the development of new functional materials, giving materials unique properties, such as excellent stability or special reactivity. Furthermore, in the field of agriculture, it may be developed as a new type of pesticide, which is highly effective in deworming insects and environmentally friendly. We hold the expectation that with time and unremitting research, S-Allyl 4-Toluenethiosulfonate will be able to shine, bring innovation to various fields, open a new chapter, and benefit all people in the world.

Where to Buy S-Allyl 4-Toluenethiosulfonate in China?

As a trusted S-Allyl 4-Toluenethiosulfonate manufacturer, we deliver: Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements. Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery. Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.

Frequently Asked Questions

As a leading S-Allyl 4-Toluenethiosulfonate supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What is S-Allyl 4-Toluenethiosulfonate?

S-allyl-4-toluene thiosulfonate is an important compound in the field of organic chemistry. Among its structures, allyl is connected to 4-toluene thiosulfonate group. Allyl has active chemical properties and can participate in many addition and polymerization reactions due to its carbon-carbon double bond. 4-toluene thiosulfonate group is also a key active site, which affects the reactivity and characteristics of compounds.
In organic synthesis, S-allyl-4-toluene thiosulfonate is often used as a reagent. For example, it can be used to construct complex sulfur-containing organic molecular structures. Due to its unique structure, it can undergo nucleophilic substitution reactions with a variety of nucleophilic reagents, thereby introducing different functional groups and expanding the structural diversity of molecules.
During the research process, scientists carefully investigated its reaction mechanism and conditions. It is known that its reactivity is affected by many factors, such as reaction temperature, solvent properties, and the proportion of reactants. Appropriate reaction conditions can improve the reaction yield and selectivity.
S-allyl-4-toluene thiosulfonate plays an important role in organic synthesis chemistry. With the deepening of research, it is expected to explore more potential applications and contribute to the development of organic chemistry.

What are the main uses of S-Allyl 4-Toluenethiosulfonate?

S-allyl-4-toluene thiosulfonate has a wide range of uses. In the field of medicine, this compound may have antibacterial and anti-inflammatory properties. It has a unique structure and can interact with specific proteins or enzymes of pathogens, blocking their normal physiological activities, and then achieving antibacterial effects. It adds new avenues to the research and development of medicine, or becomes a key ingredient of new antibacterial agents.
In the chemical industry, it also has outstanding performance. It can be used as an intermediate in organic synthesis. With its special chemical properties, it participates in the preparation of a variety of complex organic compounds. After delicate chemical reactions, its structure is integrated into new molecules, providing the possibility for the synthesis of special materials and functional additives.
In the field of materials science, it may improve material properties. If a specific material system is introduced, the surface properties of the material can be changed, such as enhancing the oxidation resistance and corrosion resistance of the material. Because thiosulfonate groups can interact with the surface of the material to build a protective interface, improve the durability and stability of the material, and expand the application scenarios of the material.
In addition, in the field of agriculture, there may be potential applications. Or it can be used as a plant growth regulator to affect plant physiological processes, such as regulating plant hormone balance, promoting nutrient absorption, and helping crops increase production and quality; or it has a certain insect repellent and insect control effect, with its special odor or chemical effect, repels pests and protects crop health, providing new ideas for the development of green agriculture.

What are the physical and chemical properties of S-Allyl 4-Toluenethiosulfonate?

S-Allyl-4-toluene thiosulfonate, this physical property belongs to the category of organic compounds. Looking at its molecular structure, it is cleverly connected by allyl, toluene and thiosulfonate groups.
In terms of physical properties, under normal temperature, it is mostly colorless to light yellow oily liquids, which seem to have a weak special smell. Its texture is like light grease, and it feels smooth to touch. Due to the special functional groups, it has a certain polarity. It exhibits good solubility in specific organic solvents, such as ethanol, ether, and dichloromethane, just like fish entering water. However, in water, the solubility is very small. If oil floats in water, the boundaries are clear.
In terms of chemical properties, this compound is active and abnormal. The presence of allyl makes it very easy to participate in various addition reactions, like a warm and hospitable person, willing to accept new partners. In front of nucleophiles, thiosulfonate groups are like an open door, easily attacked by nucleophiles, thus starting the journey of substitution reaction. Moreover, in view of the conjugation system of benzene rings, it endows molecules with certain stability, so that they can maintain their own structure under moderate conditions. In case of extreme situations such as high temperature and strong oxidants, the stability will also be challenged, causing structural changes, and then derived other products.

What are the synthesis methods of S-Allyl 4-Toluenethiosulfonate?

To prepare S-allyl-4-toluene thiosulfonate, there are various methods. One common method is to react with allyl mercaptan and 4-toluenesulfonyl chloride as raw materials in an alkaline environment. First, the allyl mercaptan is dissolved in a suitable organic solvent, such as dichloromethane or ethyl ether, and then under low temperature stirring, the solution of 4-toluenesulfonyl chloride is slowly added dropwise, and an appropriate amount of alkali, such as triethylamine or sodium hydroxide, is added to neutralize the generated hydrogen chloride to promote the positive reaction. After the reaction, the product can be obtained by washing with water, drying, and vacuum distillation.
Furthermore, it can be prepared by reacting allyl halide with 4-toluene thiosulfonate sodium salt. Dissolve 4-toluene thiosulfonate sodium salt in water or a polar organic solvent such as N, N-dimethylformamide, add allyl halide such as allyl bromide or allyl chloride, and stir the reaction at an appropriate temperature. The reaction process can be monitored by thin-layer chromatography. When the reaction is complete, S-allyl-4-toluene thiosulfonate can be obtained after extraction, washing, drying and purification.
In addition, there are also methods for reacting allyl thioacetate with 4-toluenesulfonyl chloride. Allyl thioacetate is first prepared, and then reacted with 4-toluenesulfonyl chloride under suitable conditions. Subsequent operations such as hydrolysis, separation and purification lead to the final product. These methods have advantages and disadvantages. The actual operation needs to be weighed according to factors such as raw material availability, cost, yield and purity requirements.

What are the security risks of S-Allyl 4-Toluenethiosulfonate?

S-Allyl-4-toluene thiosulfonate is potentially safe. It is flammable or flammable, and is prone to ignition and explosion in case of open flames and hot topics.
From the chemical properties, when heated, it may decompose and release toxic gases, and harmful substances such as sulfur oxides are diffuse, which is a scourge to the environment and the human body. And it has the ability to irritate the skin, eyes, and respiratory tract. When exposed to this substance, the skin may be red, swollen, itchy, and the eyes may feel tingling, tearing, and even damage vision; if inhaled, its volatile breath will cause respiratory discomfort, cough, and asthma. In severe cases, it will involve the lungs and endanger life.
When storing, be careful. It should be placed in a cool and ventilated place, away from fire and heat sources to prevent accidents. Containers should also be well sealed to avoid deterioration in contact with air, and should be separated from oxidants, alkalis and other substances to prevent their interaction from causing danger. When handling, handle with care to avoid damage to packaging and containers and leakage of substances.
During use, operators must wear appropriate protective equipment, such as protective glasses, gloves, and protective clothing, to guard against potential hazards. Workplaces should also be well ventilated to reduce the concentration of harmful substances in the air. In the event of accidental leakage, quickly evacuate unrelated personnel to a safe area and seal the scene tightly. Emergency responders need professional protection to clean up leaks according to standardized procedures, or absorb them with inert materials such as sand and vermiculite, and then dispose of them properly. They must not be discarded at will to avoid polluting the environment.