4-Toluenesulfonic Acid Silver Salt

Lingxian Chemical

Specifications

HS Code	109854
Chemical Formula	C7H7AgO3S
Molecular Weight	258.06 g/mol
Appearance	white to off - white powder
Melting Point	decomposes
Solubility In Water	slightly soluble
Solubility In Organic Solvents	soluble in some polar organic solvents like DMF
Acidity Basicity	derived from an acid, but the silver salt is less acidic
Stability	sensitive to light and air
Oxidation State Of Silver	+1
Crystal Structure	crystalline solid
Odor	odorless

Packing & Storage

Packing	100g of 4 - Toluenesulfonic Acid Silver Salt packaged in a sealed, corrosion - resistant container.
Storage	4 - Toluenesulfonic Acid Silver Salt should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, open flames, and incompatible substances like strong oxidizers. Store in a tightly - sealed container to prevent moisture absorption, which could affect its chemical properties and stability.
Shipping	4 - Toluenesulfonic Acid Silver Salt should be shipped in tightly - sealed, corrosion - resistant containers. It must be protected from moisture and handled with care due to its chemical nature, following all relevant hazardous material shipping regulations.

Free Quote

For samples, pricing, or more information, please call us at +8615651039172 or mail to info@bouling-chem.com.

We will respond to you as soon as possible.

Tel: +8615651039172

Email: info@bouling-chem.com

General Information

Historical Development

4-Toluenesulfonate silver salt, the development process of this substance has a long history. In the past, chemical researchers were first involved in the field of organic synthesis and explored various reagents. At that time, the characteristics of many substances were unknown, and the synthesis method was not perfect.
In the long road of research, scholars paid attention to the characteristics of sulfonic acid compounds. After repeated experiments and research, it was found that 4-toluenesulfonate silver salt can show unique effects in specific reactions. Its initial appearance was only a niche research in the laboratory, but with the deepening of research, its advantages in catalysis and simplification of organic synthesis steps gradually became apparent.
With the passage of time, the advancement of science and technology, and the improvement of synthesis technology, the preparation of 4-toluenesulfonate silver salt is more accurate and efficient. From a little-known niche reagent, it has gradually become a commonly used thing in the field of organic synthesis, leaving a unique mark on the development of chemistry.

Product Overview

The silver salt of 4-toluenesulfonic acid is an important substance in chemical research. Its color is white, it is often powdery, and its properties are relatively stable. This salt is prepared by a specific reaction between 4-toluenesulfonic acid and silver ions.
In the field of organic synthesis, the silver salt of 4-toluenesulfonic acid has a significant effect. It can be used as a catalyst to accelerate the process of many chemical reactions and improve the reaction efficiency. Due to its unique structure, it can effectively reduce the activation energy of the reaction and promote the reaction to occur more easily.
In the field of materials science, it also has applications. It can participate in the preparation of special functional materials and endow materials with unique properties. Its research and application continue to expand, contributing to the development of the chemical field. In the future, it is expected to play an important role in more fields and promote the progress of related science and technology.

Physical & Chemical Properties

4-Toluenesulfonic Acid Silver Salt is a chemical substance. Its physical and chemical properties are worth exploring. Looking at its appearance, it often takes a specific form or is in the shape of a powder, and its color is also characteristic. In terms of its solubility, it behaves differently in different solvents, which is related to the interaction between its molecular structure and solvent molecules. In terms of thermal stability, when heated, it may change according to the energy of its chemical bonds. And its chemical activity, due to the existence of silver ions and sulfonic acid groups, can participate in specific chemical reactions, and may have unique applications in organic synthesis and other fields. All these physical and chemical properties are the key to in-depth understanding of this substance, and are also an indispensable part of related research.

Technical Specifications & Labeling

Jinyan 4 - Toluenesulfonic Acid Silver Salt This product, the process specification and identification (product parameters) are the key. The preparation method needs to follow precise procedures, and the material ratio, reaction temperature and time must be strictly controlled. If the temperature is too high or the product is impure when the material is blended, the reaction will be slow if it is too low.
On the label, its chemical properties, purity geometry, and applicable domain should be detailed. The term purity is related to its effectiveness in various reactions. It must be determined accurately and clearly marked. The applicable domain shows what kind of chemical process it can be used in to avoid misuse. In this way, the correct way of the process specification is obtained, and the identification is correct, so that this product can play a good role in the field of chemical industry.

Preparation Method

To make 4 - Toluenesulfonic Acid Silver Salt, it is necessary to explain its raw materials and production process, reaction steps and catalytic mechanism. First take an appropriate amount of toluenesulfonic acid and use it as the base material. Mix it slowly with the silver nitrate solution, and the temperature must be controlled at a suitable temperature during the process, and constantly stir to make the two fully blend. The reaction steps are as follows: The sulfonic acid group of toluenesulfonic acid interacts with the silver ion in the silver nitrate, and through the process of ion exchange, 4 - Toluenesulfonic Acid Silver Salt is formed. The catalytic mechanism is that the silver ion has high activity, which can accelerate the combination of the sulfonic acid group with itself and promote the reaction to the right. In the production process, the subsequent steps of separation and purification are required to obtain a pure product to ensure its quality and purity and meet the required uses.

Chemical Reactions & Modifications

The chemical reaction and modification of 4 - Toluenesulfonic Acid Silver Salt are very critical. The chemical reaction of this salt often involves many reaction paths. The method of the past, or the yield is not high and the side reaction is complicated.
We want to modify the way to increase the efficiency and purity of the chemical reaction. After many explorations, it is found that adjusting the temperature, pressure of the reaction, and choosing the appropriate solvent can all affect the chemical reaction. If a specific organic solvent is used as the medium, the temperature control is in a moderate range, the chemical reaction rate increases significantly, and the side reaction products decrease sharply.
The relationship between its structure and properties is also studied, hoping to fine-tune the structure to achieve the purpose of optimizing the chemical reaction performance. After unremitting research, we have begun to see the door, and we still need to cultivate it in the future, hoping to obtain better application and modification results in order to promote the application of this product in various fields.

Synonyms & Product Names

Silver 4-toluenesulfonate, also known as silver p-toluenesulfonate. This substance is of great significance in the field of chemical research. P-toluenesulfonate is a common strong organic acid. When combined with silver ions to form a salt, it has unique properties.
Silver p-toluenesulfonate can be used as a catalyst in organic synthesis. With the characteristics of silver ions, it can promote many reactions. Its stability is slightly better than that of some silver salts, providing a relatively stable catalytic environment for the reaction.
In previous studies, many scholars tried to prepare silver p-toluenesulfonate by different methods to explore its catalytic effect in various reactions. Experiments found that in some esterification and alkylation reactions, silver p-toluenesulfonate exhibited efficient catalytic activity, which helped to improve the yield and rate of the reaction.
Although this substance has made significant contributions to chemical research, it is still necessary to pay attention during operation because it contains silver ions. Under some reaction conditions, it may have special properties and requirements, and researchers need to be cautious.

Safety & Operational Standards

4 - Safety and Operation Specifications of Toluenesulfonic Acid Silver Salt
Husband 4 - Toluenesulfonic Acid Silver Salt is an important substance in chemical research. In its use and operation, safety is the first priority, and standards are the most important. Don't slack off a little.
Although this substance has specific chemical properties, it is very harmful to contact it inadvertently. Therefore, when operating, you must wear complete protective equipment, such as protective clothing, protective gloves and anti-goggles. The protective clothing needs to be airtight to prevent it from contaminating the skin; the material of the gloves must be resistant to corrosion, so that the hands are safe; the eyepieces are clear and strong, and the eyes are protected in case.
Furthermore, the operating environment is also crucial. It is suitable for a well-ventilated place. If possible, special ventilation equipment should be set up to make the air flow smoothly, and harmful gases should be discharged quickly, so that they do not gather in the room. And the operating table must be neat and orderly, and the debris should not be stored to prevent it from interacting with the substance and causing accidents.
When using this substance, the method of accurate measurement should be followed. The measuring device must be clean and accurate, and it should be properly cleaned after use, so as to be ready for later use. When weighing, the action should be stable, and the substance should not be spilled. If it is accidentally spilled, it should be disposed of immediately according to the specifications. Isolate the scene first, prevent people from approaching, and then collect it carefully with appropriate tools. The remnants should be cleaned with corresponding reagents to ensure that the environment is clean.
The method of storage should not be When placed in a dry, cool and dark place, away from fire and heat sources to prevent their properties from changing and causing danger. It should be placed separately from other chemicals to avoid their mutual reaction.
In short, the operation and use of 4 - Toluenesulfonic Acid Silver Salt must strictly abide by safety and operating standards, and must not be sloppy at all, so as to ensure the smooth experiment and the safety of personnel.

Application Area

4-Toluenesulfonic acid silver salt is a special chemical substance. Its application field is quite wide. In the field of organic synthesis, it is often used as a catalyst, which can promote the progress of many reactions, make the reaction path smoother and speed up.
View all chemical production, which participates in the preparation of specific compounds, can precisely regulate the reaction, improve the purity and yield of the product. In scientific research experiments, it is also an important reagent, helping researchers explore new reactions and new mechanisms, so as to open up the new territory of chemical understanding.
This compound, with its unique chemical properties, has demonstrated its value in many fields, such as the carving of fine chemicals and the assistance of drug synthesis, which can be seen in its presence. It is indispensable for the development and application of chemistry.

Research & Development

Yu Taste is dedicated to the research of 4 - Toluenesulfonic Acid Silver Salt. This material property is unique and has a wide range of applications. At the beginning, Yu carefully observed the preparation method, and through repeated experiments, improved the process, and strived for accuracy. When preparing, the material matching and temperature control are all important.
Then study its experimental properties, observe its reactions in different environments, record subtle changes, and clarify its chemical properties. And explore its application potential in various fields, such as catalytic reactions, with remarkable results.
After long-term research, the understanding of 4 - Toluenesulfonic Acid Silver Salt has gradually deepened. However, there is no end to learning, and further progress is still needed to expand its application in order to promote its further development, hoping to contribute to the field of chemistry and promote the continuous progress of this substance research.

Toxicity Research

Today there is a thing called 4-Toluenesulfonic Acid Silver Salt, and our generation takes its toxicity as the core of our research. The toxicity of this thing is related to the safety of living beings and cannot be ignored.
Examine its properties in detail. In various media, the onset of its toxicity, whether slow or urgent, varies. Try to observe the effects of various organisms, observe its poisoned state, changes in behavior, and physiological signs, all of which are recorded in the book.
Observe its dissolution in water, its poison may be easily dispersed around, and organisms will feel uncomfortable touching it. In soil, it may be absorbed by plants and move up the food chain, harming all living things.
After this study, it can be seen that its toxicity is strong, and it cannot be underestimated due to ecological disturbances. The urgent task is to find ways to avoid the poison and prevent it from spreading to all living beings, so as to ensure the safety of heaven and earth.

Future Prospects

Fu 4-Toluenesulfonic Acid Silver Salt This material is the object of our dedicated research. It is unique in nature and has great potential for various chemical applications.
Looking at today's progress, although some results have been achieved, there is still a long way to go. We hope that in the future, we can study its properties and expand its uses.
In the future, it may be able to shine in the field of fine chemicals. Make this substance have extraordinary effects in material synthesis, catalytic reactions and other things. Make it contribute to the progress of science and technology and add luster to human well-being. This is the future we look forward to.

Frequently Asked Questions

What are the chemical properties of 4-toluenesulfonate silver salt?

4-Methylimidazolium cadmium sulfate has special chemical properties. In this compound, 4-methylimidazole is nitrogen-containing and has certain chemical properties, which can cause the formation of acid reactions. In its molecules, the introduction of methyl also has an impact on its properties. Methyl has a promoter effect, which can increase the density of molecules on imidazolium, which affects its acidity and its ability to combine gold.
The sulfuric acid part, the sulfuric acid part, the sulfuric acid part, the sulfuric acid part, the sulfuric acid part itself is easily soluble in water, and the sulfuric acid root can be produced in aqueous solution. The 4-methylimidazole is formed, and the two are combined with sulfuric acid or coordination.
In terms of solubility, or due to the partial interaction of 4-methylimidazole with sulfuric acid, its solubility may be less than that of 4-methylimidazole and sulfuric acid. In some cases, or due to the solubility of the sulfuric part, there is a certain degree of solubility; and in water, due to the solubility of sulfuric acid and the partial water of 4-methylimidazole, there may also be a certain degree of solubility.
In terms of quality, 4-methylimidazole sulfuric acid depends on external conditions. In case of acid, or due to acid reaction, it will break down. At high temperatures, or due to the decomposition of the sulfuric part and the reduction of the sulfuric part, it will affect its quality. In addition, the seeds have a certain toxicity, which can be affected in the environment or due to the release of the seeds. The general characteristics of their chemical properties are determined by the properties and interactions of their components. In the field of chemical research and related applications, it is necessary to explore their properties for use.

What are the preparation methods of 4-toluenesulfonate silver salt?

4-Lead acetate trihydrate is a common chemical agent. Although the ancients did not have modern and precise methods for its preparation, there are still ways to follow.
First, lead powder and acetic acid are used as materials. Lead powder, in ancient times, was often taken from the calcination and oxidation of lead. Take an appropriate amount of lead powder and put it in a clean container, slowly inject acetic acid. At that time acetic acid was mostly fermented from grain. When the two meet, a chemical reaction occurs, and lead powder reacts with acetic acid to form lead acetate. During the reaction process, pay attention to the temperature and the concentration of acetic acid. The temperature should not be too high, otherwise the acetic acid will be easy to evaporate and cause insufficient reaction. When the reaction is over, let the solution stand to precipitate the unreacted impurities, and then filter to obtain a relatively pure lead acetate solution.
Second, react with lead and acetic acid. Choose a lead block with higher purity and place it in an acetic acid solution. This reaction is relatively slow and requires patience. Under the action of acetic acid, lead gradually dissolves to form lead acetate. In order to accelerate the reaction, it can be properly heated, but the temperature should not be too high to avoid other side reactions. When the lead is basically dissolved and the color of the solution changes slightly, a lead acetate solution is obtained.
The resulting lead acetate solution is evaporated and concentrated to gradually lose water. During the process, it needs to be boiled slowly over low heat to prevent the decomposition of lead acetate. When a crystal film appears in the solution, stop heating and let it cool, and the lead acetate trihydrate will crystallize and precipitate. After filtration, washing, drying and other processes, the pure 4-acetate lead trihydrate can be obtained. Although the ancient method and modern chemical preparation are different, the basic principles are the same, all of which are to use the reaction of lead and acetic acid, and then follow-up treatment to obtain the required chemical substances.

What fields are 4-toluenesulfonate silver salts used in?

4-Methylimidazole zinc sulfate mercury salt, this substance is very toxic, and its positive use is rarely seen in many traditional records and practical application fields. In the genus of Xianmen spells, Qimen hidden armor, and Feng Shui, it is not available. Cover because of its complex composition and contains mercury, mercury, highly toxic substances, harmful to human health, damage the viscera, and disordered qi and blood, so traditional formulas are rarely involved.
In traditional Chinese medicine, the classics of Materia Medica have not recorded its method of being used as medicine. Doctors use drugs, the first thing is peaceful, effective, and free of toxic and side effects. This medicine contains mercury poison, so it must not be taken by doctors, and there is no possibility of being used as medicine to treat diseases.
It is also difficult to find traces of it in the fields of daily people's livelihood and craftsmanship. Due to its toxicity, it is difficult to use it for common affairs in production and life. Although the world is complicated, or there are unknown and unconventional applications, it must not be widely used due to common sense. Due to safety considerations, everyone avoids its poison. Therefore, 4-methylimidazole zinc sulfate mercury salt has no positive application in common fields, and everyone should stay away to prevent the risk of poisoning.

How is the stability of 4-toluenesulfonate silver salt?

The stability of 4-ethyl silver octanoate soap is related to many aspects. The properties of chemical substances often depend on the structure and environment. In the molecular structure of 4-ethyl silver octanoate soap, the coordination between ethyl and octanoate, as well as silver ions, are the key elements affecting its stability.
From the perspective of chemical structure, the octanoate base has a certain spatial resistance, which can provide a certain degree of protection for silver ions, making it more difficult to react with external objects. The introduction of ethyl groups, or changing the distribution of electron clouds in molecules, also affects the stability of silver soaps. If the proper resistance effect of ethyl groups can prevent external substances from approaching silver ions, making silver soaps stabilize.
Furthermore, the environment is also very important. In the air, factors such as humidity and oxygen can act on 4-ethyl silver octanoate soap. If the ambient humidity is high, water molecules may interact with silver soap, affecting the stability of its structure. Oxygen may initiate an oxidation reaction, causing changes in the valence state of silver ions, which damages the stability of silver soap.
And temperature is also a factor that cannot be ignored. Under high temperature, the molecular movement intensifies, and the intramolecular and intermolecular interactions of 4-ethyl silver octanoate soap are damaged, resulting in reduced stability. On the contrary, in a low temperature environment, the molecular movement slows down and the structure of silver soap is relatively stable.
In addition, even a very small amount of impurities in the system may have a significant impact on the stability of 4-ethyl silver octanoate soap. Impurities may chemically react with silver soap, or change the surrounding microenvironment, thereby destroying its stable state.
Therefore, in order to observe the stability of 4-ethyl silver octanoate soap, it is necessary to comprehensively consider its chemical structure, environmental factors such as humidity, oxygen, temperature, and impurities in the system to understand the full picture of its stability.

What are the reactions of 4-toluenesulfonate silver salt with other compounds?

4-Ethylhexanoic acid silver soap is an organic compound, and its reaction with other compounds is quite diverse.
First, it can decompose with acids. In case of strong acids, such as hydrochloric acid, sulfuric acid, etc., because the acidity of strong acids is stronger than that of 4-ethylhexanoic acid, 4-ethylhexanoic acid can be replaced from its silver soap to generate 4-ethylhexanoic acid and corresponding silver salts. If reacted with hydrochloric acid, 4-ethylhexanoic acid can be precipitated with silver chloride. The chemical equation for the reaction is: RCOOAg + HCl → RCOOH + AgCl?, where R represents 4-ethylhexyl.
Second, 4-ethylhexanoate silver soap can undergo nucleophilic substitution reaction with halogenated hydrocarbons. The carboxylate anion in silver soap is nucleophilic, and the halogen atom of halogenated hydrocarbons has a certain degree of departure. When the two meet, the carboxylate can replace the halogen atom of halogenated hydrocarbons to form new ester compounds. For example, when reacted with bromoethane, 4-ethylhexanoate ethyl ester and silver bromide can be formed. The reaction formula is: RCOOAg + C ² H Br → RCOOC ² H + AgBr.
Third, in the redox reaction system, 4-ethylhexanoate silver soap also exhibits. Silver ions are in the + 1 valence state and have certain oxidizing properties. When encountering suitable reducing agents, such as some organic compounds containing active hydrogen, silver ions can be reduced to metallic silver, and the reducing agent can be oxidized. However, such reactions require specific reaction conditions, such as suitable solvents, temperatures and catalysts.
Fourth, when reacting with a metal salt solution, if the metal ion combines with carboxylate to form a salt with less solubility or better stability, an ion exchange reaction can occur. If reacting with a copper sulfate solution, it is possible to form 4-ethylhexanoate copper and silver sulfate, but whether this reaction occurs or not depends on the solubility product constant and reaction conditions of the two.