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Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

Silver P-Toluenesulphonate

Lingxian Chemical

Specifications

HS Code	382129
Chemical Formula	C7H7AgO3S
Molecular Weight	256.09 g/mol
Appearance	White to off - white powder
Solubility In Water	Slightly soluble
Solubility In Organic Solvents	Soluble in some polar organic solvents like acetone
Melting Point	140 - 144 °C
Decomposition Temperature	May decompose on heating above certain temperature
Stability	Stable under normal conditions, but light - sensitive
Odor	Odorless
Hazard Class	May cause skin and eye irritation

As an accredited Silver P-Toluenesulphonate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	Silver P - Toluenesulphonate, 500g, packaged in a tightly - sealed chemical - grade bottle.
Storage	Silver p - Toluenesulphonate should be stored in a cool, dry place, away from heat sources and direct sunlight. Keep it in a well - sealed container to prevent moisture absorption and contact with air, which could lead to degradation. Since it's a chemical, store it in a designated chemical storage area separate from incompatible substances, following safety protocols to avoid potential reactions and ensure storage stability.
Shipping	Silver p - Toluenesulphonate is shipped in well - sealed, corrosion - resistant containers suitable for chemicals. Packaging ensures protection against moisture, light, and physical damage during transit to maintain product integrity.

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General Information

Historical Development

Silver P-Toluenesulphonate is also a product of chemistry. Looking back at its historical development, chemists in the past explored the mysteries of matter and continued to study in the field of organic synthesis. At that time, many chemical substances were to be discovered, and Silver P-Toluenesulphonate gradually entered the field of vision. In the early days, the understanding of its properties was still shallow, and only a little knowledge of its role in some simple reactions. However, with the passage of time, various scholars have unremitting research and found that it has great potential in the field of catalysis. With its keen insight and perseverance in experimentation, chemists have made Silver P-Toluenesulphonate widely used. From the initial simple organic reaction to the complex synthesis path, it has its own impact. After countless attempts and improvements, this product has become more and more important in the chemical community, and its historical development has witnessed the brilliant course of chemical exploration.

Product Overview

Silver P - Toluenesulphonate is a unique substance in chemical research. Its appearance is often finely crystalline, its color is white and pure, like the beginning of winter snow, delicate and uniform.
This compound has unique properties and often plays a key role in many chemical reactions. Its chemical activity is quite high, and it can trigger a series of delicate reactions under specific conditions. It is like a precise key that opens the door to many chemical changes.
Preparation of Silver P - Toluenesulphonate requires multiple rigorous processes. From the selection of raw materials to the precise control of reaction conditions, the subtle changes in temperature and pH are all related to the purity and quality of the product.
In the application field, in the field of organic synthesis, it helps the construction of many complex compounds, paves an important path for the expansion of chemical research, and is like a bright star in the chemical world, emitting a unique light, leading researchers to explore the unknown chemical world.

Physical & Chemical Properties

Silver P-Toluenesulphonate is a chemical substance. Its physical and chemical properties can be studied. Looking at its shape, under normal conditions, it may be solid, white or nearly white, delicate as powder, smooth to the touch. Its melting point is fixed, and it is known by measurement that it is an inherent characteristic of the substance.
On its solubility, in some organic solvents, it is soluble and rapid, and this property is related to the molecular structure. Its chemical activity is also the focus, and it can respond to a variety of reagents. For example, when it encounters nucleophiles, it can initiate nucleophilic substitution reactions. This is in the field of organic synthesis and has a wide range of uses. And its stability is good under specific conditions, but it may change in case of high temperature, strong acid and alkali. All these physical and chemical properties are of great importance to chemical researchers and can lead to more applications.

Technical Specifications & Labeling

Silver P-Toluenesulphonate is also a chemical product. To understand its technical quality, it is necessary to study its properties, methods and uses.
Its properties are white and pure, and its solubility is fixed in a specific solution. Melting and boiling are also important. The method is often obtained by a specific reaction. The proportion of raw materials and the reaction parts need to be carefully controlled. For example, the degree of inversion or in a certain situation is also required to ensure the yield of the product.
The use is wide, or the catalysis of a certain reaction is high, or a specific synthesis pathway. the quality of the product is high, and the formula, degree, etc. are clear. In this way, users can use it according to their skills.

Preparation Method

Silver P-Toluenesulphonate is an important chemical product, and its preparation method is crucial. The raw materials to be prepared need to be carefully selected. Toluenesulphonate and silver salt can be selected as starting materials, and the reaction characteristics of the two are excellent.
Preparation process is as follows: First dissolve an appropriate amount of silver salt in a specific solvent. The choice of solvent should consider good solubility to the reactant and does not interfere with the reaction. Then slowly add toluenesulphonate, and stir must be uniform to ensure that the reaction is sufficient. During the reaction process, temperature control is extremely critical, and it should be maintained in an appropriate range to make the reaction proceed smoothly.
The reaction steps are in sequence. After the starting materials are mixed, the reaction is initiated, and the reaction phenomena such as color change and precipitation formation are observed. When the reaction reaches a certain level, proceed with the separation operation to obtain a solution containing the product.
As for the catalytic mechanism, silver ions play a key role in the reaction, which can reduce the activation energy of the reaction, accelerate the reaction process, and promote the smooth conversion of toluenesulphonate to Silver P-Toluenesulphonate, so that this chemical product can be efficiently prepared.

Chemical Reactions & Modifications

Silver P-Toluenesulphonate is also a chemical substance. Its modification and reverse modification are of great importance to those who seek it.
The inversion of silver P-Toluenesulphonate is often involved in the general process. Its ability to be synthesized can be synthesized, and it can be interacted with by multiple groups to form new compounds. However, the inverse components, such as the degree of solubility and solubility, are limited, and the effect of a little inversion is different.
As for modification, it aims to reduce its sex. or increase its qualitative quality, or reduce its activity to make it more suitable for specific needs. It can be modified and added for this purpose.
To study the anti-modification of Silver P-Toluenesulphonate, in the process of transformation and the production of new materials, the meaning is extraordinary, and it is necessary to study its principles in depth to expand the field.

Synonyms & Product Names

Silver P-Toluenesulphonate, also known as silver p-toluenesulphonate. It is often concerned by us in chemical research. Silver p-toluenesulphonate, with its unique chemical properties, plays a key role in many reactions.
Looking at its name, "silver p-toluenesulphonate" is the official trade name, and Silver P-Toluenesulphonate is its English title. In many previous experiments, it has been proved that it has important value in catalytic reactions and other fields.
The preparation method requires precise control of the ratio of each reactant according to specific processes and conditions in order to obtain products with higher purity. In the process of chemical synthesis, silver p-toluenesulfonate is often used as a catalyst to help the reaction proceed more efficiently, just like a boat in a river, leading the reaction to move forward smoothly and move towards the expected product.

Safety & Operational Standards

Silver P-Toluenesulphonate is also used to transform things. Its storage, storage and use must be operated in a safe manner to prevent dangerous life.
In order to prevent damage.
In this way, the goods used are not used, and the equipment is not dry. The operation should be carried out in a good place, and the control should be carried out, such as the degree of resistance, the temperature, the temperature, and the reaction. In the reaction, it is necessary to observe the reaction. If there is any problem, stop the operation immediately, and solve the problem.
If there is any problem, keep it in a good place, and the source of fire, the source of heat and oxidation should be used. It is advisable to use a sealed container to prevent moisture, oxidation or the reaction of other things. Check its storage regularly, and if there is any change, take care of it immediately.
When using the product, it must follow the correct operation process. The operator needs to take appropriate precautions, such as gloves, glasses, gas masks, etc. When using the product, use dry equipment, and pay attention to the dosage. Do not waste, and do not return the material to the original container. After use, properly store the product, and keep it according to the phase. Do not pour it out.
Silver P-Toluenesulphonate is beneficial for chemical research and industrial production, but its safe operation is of paramount importance. Only by keeping it safe can we avoid danger, ensure people's safety, and keep the environment from being contaminated.

Application Area

Silver P - Toluenesulphonate is an important chemical substance with a wide range of application fields. In the field of organic synthesis, it is often used as a catalyst. By catalyzing many chemical reactions, it can effectively increase the reaction rate and make the reaction proceed more efficiently.
In the field of materials science, it also has its uses. It can participate in the preparation process of specific materials and affect the properties of materials, such as improving the stability of materials or enhancing their specific physical properties.
Silver P - Toluenesulphonate also plays a role in the development of drugs. Or it can participate in the key steps of drug synthesis, help obtain target drug ingredients, and provide important support for the creation of new drugs. These are the main application fields of Silver P - Toluenesulphonate, which shows its important value in various related fields.

Research & Development

In recent times, the research of chemistry has become more and more advanced. I focus on the research of Silver P-Toluenesulphonate.
At the beginning, in order to obtain this compound, the selection and ratio of raw materials are very important. After repeated attempts, the appropriate method was found, but the purity was still not enough.
Then, the preparation process was improved, and the reaction conditions were carefully considered. Temperature, pressure, and reaction time are all key. After many debugging, the purity of the product gradually increased, and the yield also improved.
Looking at its application, Silver P-Toluenesulphonate has great potential in the field of organic synthesis. It can be used as a catalyst to accelerate many reaction processes, and the selectivity is quite good.
Looking to the future, we hope to further optimize its performance and expand the field of application. Or it can make achievements in new material research and development, drug synthesis, etc., and contribute to the development of chemistry.

Toxicity Research

Since modern times, the study of chemical substances has deepened. Silver P - Toluenesulphonate is a substance that our generation has devoted ourselves to toxicological research.
At the beginning, we observed its shape and quality, observed its changes in various environments, and recorded its appearance in detail. Then, we tried it on various creatures, and observed that it was affected by Silver P - Toluenesulphonate. Or see the change of its vitality, the difference in behavior, and the different physiological signs.
After months of research, some conclusions have been drawn. Silver P - Toluenesulphonate is toxic when it is low in amount, or has no great harm to some creatures, but when the amount increases gradually, it can be seen that it is toxic. It may damage the internal organs of living beings, disrupt their physiological order, and even endanger their lives.
We should be careful when applying it, and make sure to understand the harm of its toxicity, so as to prevent accidental disasters, so that living beings can be protected from its poison, and also to ensure the safety of the environment.

Future Prospects

Today's Silver P-Toluenesulphonate is unique and has a wide range of uses. Although it has been used in the world, there is still a vast space for future prospects.
In the chemical industry, it is expected to use its characteristics to develop more sophisticated synthesis paths, so that the purity and yield of the product can increase, adding new wings to the industry. In materials science, it may be modified to create new materials with excellent performance, which will shine in electronics, aviation and other industries.
In the field of medicine, there are also potential opportunities. If its pharmacological properties are deeply explored, it may provide key clues for the creation of new drugs and save patients from pain. The future of Silver P-Toluenesulphonate is like uncultivated fertile soil, full of hope and possibility, waiting for our generation of scientific researchers to diligently explore and develop its endless potential to shine tomorrow's technology.

Where to Buy Silver P-Toluenesulphonate in China?

As a trusted Silver P-Toluenesulphonate 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 Silver P-Toluenesulphonate 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 the use of Silver P-Toluenesulphonate?

Silver + P - Toluenesulphonate is silver p-toluenesulphonate, which is rarely used in ancient chemical applications and is rarely found in ancient books. However, based on today's chemical theory, its uses may have the following ends.
First, in the field of organic synthesis, silver p-toluenesulphonate can be used as a catalyst. Because p-toluenesulphonate has certain nucleophilic properties, silver ions can also complex with specific substrates, and the two cooperate to promote the progress of many organic reactions. For example, the formation of carbon-carbon bonds can make the reaction conditions milder and improve the reaction rate and yield. And its catalytic activity and selectivity, or depending on the reaction substrates and conditions, are different, just like the good work of the ancient times, making good use of various tools, applying the art according to the material, and achieving a delicate environment.
Second, in some ion exchange processes, silver p-toluenesulfonate may participate. Silver ions can be exchanged with other cations, while p-toluenesulfonate can interact with anions. This process is like the ancient colonization, bartering, each taking what he needs, to achieve the conversion and regulation of ionic components, which is beneficial for the preparation of compounds or materials of specific compositions.
Third, silver p-toluenesulfonate may be modified on the surface of the material. It can be adsorbed or bonded to the surface of the material, changing the chemical properties of the material surface, such as wettability, hydrophilicity, etc. Just like the ancient lacquer art, it adds different characteristics to the surface of the utensils to make them more suitable for specific purposes.
Fourth, in the field of analytical chemistry, it can be used to detect specific substances of silver p-toluenesulfonate. Due to its unique structure and chemical properties, it can react specifically with certain compounds. Through such reaction phenomena, such as color change, precipitation formation, etc., to infer the existence and content of specific substances, which is similar to the ancient alchemists, which use subtle images to measure the concealment of substances.

What are the physical properties of Silver P-Toluenesulphonate?

Silver + P - Toluenesulphonate is a common compound in organic chemistry. Its physical properties are as follows:
From the perspective of silver p-toluenesulphonate, it is often white to light yellow crystalline powder, which makes it easier to disperse and participate in reactions in many reaction systems. The reason for its color is the distribution and transition of electron clouds in the molecular structure, which results in partial absorption and reflection of visible light, so it presents a specific color.
When it comes to melting point, silver p-toluenesulphonate has a certain melting point value, but due to factors such as preparation method and purity, the melting point fluctuates slightly. This property is crucial in the identification of the purity and identification of the compound. The melting point of the pure product is relatively sensitive, and the mixing of impurities will reduce the melting point and widen the melting range.
In terms of solubility, silver p-toluenesulfonate has a certain solubility in organic solvents such as ethanol and acetone. This is due to the intermolecular forces between the organic solvent and the silver p-toluenesulfonate molecule, such as van der Waals force, hydrogen bond, etc., which help it dissolve. In water, its solubility is relatively limited, due to the hydrophobicity of organic groups in the molecule.
In terms of stability, silver p-toluenesulfonate is relatively stable at room temperature and pressure and in a dry environment. In case of humid air or high temperature, hydrolysis or other chemical reactions may occur. At high temperature, the chemical bond energy in the molecule increases, which makes it easier to break and recombine, resulting in changes in chemical properties.
The physical properties and structure of silver p-toluenesulfonate are closely related. The combination of aromatic ring, sulfonate and silver ion gives unique properties and is widely used in organic synthesis and other fields.

What is the preparation method of Silver P-Toluenesulphonate?

The method of making silver (I) p-toluenesulfonic acid is to first take an appropriate amount of p-toluenesulfonic acid and place it in a clean reaction vessel. The p-toluenesulfonic acid needs to be pure and free of impurities, which is the key to ensuring the purity of the product. Then, add an appropriate amount of silver salt slowly. The silver salt used, such as silver nitrate, also needs to have high purity.
When adding silver salt, the action should be slow and stirred continuously to make the two fully contact and mix evenly. The stirring process must be smooth to avoid violent vibration causing the reaction to get out of control. When the two meet, a chemical reaction occurs. The silver ion is combined with the p-toluenesulfonic acid ion, and then the raw silver (I) p-toluenesulfonic acid is combined.
When reacting, the temperature also needs to be Generally speaking, under normal temperature or moderate heating conditions, the reaction can proceed smoothly. When heating, do not act too hastily, but slowly heat up to prevent local overheating from causing side reactions. After the reaction is fully completed, the generated silver (I) p-toluenesulfonate solid can be separated by filtration. Filter paper or filter used should be clean and have a suitable pore size to ensure the filtration effect.
The filtered solid needs to be washed with an appropriate amount of pure solvent to remove impurities. The choice of washing solvent is very important, both to effectively dissolve impurities and not to react with the product. After washing, place the product in a suitable environment to dry or dry at low temperature. Be sure to ensure that the product is dry and free of moisture residue, so that pure silver (I) p-toluenesulfonate can be obtained. The entire preparation process requires rigorous operation and attention to details to produce high-quality products.

Silver P-Toluenesulphonate What to pay attention to when storing

Silver + P - Toluenesulphonate is also a thing that is transformed. If it is stored, please pay attention to all kinds of things, so as to ensure the stability and safety of its properties.
First, it is the existence of a dryness. This is because P - Toluenesulphonate is easy to absorb moisture. If it is in a tidal environment, it is feared that the water will be biochemically combined and reversed, causing it to change, and it will affect the integrity of Silver + P - Toluenesulphonate. And the tide may also be mixed into the water, reducing its degree.
Second, the degree of preservation should be in the middle. High temperature, or cause the activity of Silver + P - Toluenesulphonate molecules to increase greatly, leading to unnecessary reactions, such as decomposition, polymerization, etc. However, if the temperature is low, it may cause the reaction rate, but in some cases, it may also cause the crystal form to change, affecting the physical properties. Therefore, it is important to be near the temperature and the temperature wave is small.
Third, avoid light. Light, especially light, or provide energy, so that Silver + P - Toluenesulphonate can be photochemical reaction, and it can be changed. Therefore, it should be placed in the dark, or stored in a light-shielding container to block the light.
Fourth, do not mix with incompatible things. Silver + P - Toluenesulphonate or some oxidation, original, etc. produce strong reactions. Therefore, if it is stored, it is necessary to check its transformation properties, and to isolate things that may be reversed, in order to prevent danger. In this way, Silver + P - Toluenesulphonate can be properly stored so that its properties can be determined and used for the required use.

What are the common chemical reactions of Silver P-Toluenesulphonate?

The common chemical reaction between silver (silver) and p-toluenesulphonate (P-Toluenesulphonate) is quite important. One of its reactions is the nucleophilic substitution reaction. P-toluenesulfonate is a good leaving group, and silver ions can cooperate with nucleophiles to prompt nucleophiles to attack substrates and cause substitution reactions. If the nucleophilic reagent is an alcohol, ether compounds can be formed. The process is like a military siege, the nucleophilic reagent is like a brave army, approaching the substrate castle, while the p-toluenesulphonate is like an enemy who abandons the city and flees. Silver ions are like generals commanding the battle, helping the nucleophilic reagent to attack the city smoothly and obtain new ether products.
There is a coupling reaction. Under suitable reaction conditions, silver and p-toluenesulfonate can participate in the coupling process and react with other organic halides or similar substrates to form carbon-carbon bonds or carbon-heteroatomic bonds. This reaction is like building a delicate bridge to connect different organic fragments, like a skilled craftsman splicing building components to build complex organic molecular structures. It is widely used in the field of organic synthesis and helps to synthesize many organic compounds with special structures and functions.
In addition, reduction reactions are also common. Silver ions can be reduced by suitable reducing agents, and the carbon-sulfur bonds of p-toluenesulfonate may be broken to form corresponding reduction products. This process is like a material undergoing metamorphosis, silver ions gain electrons and transform, and the structure of p-toluenesulfonate is also changed to form new compounds, which are like phoenix nirvana and appear on the stage of chemical reactions in a new state.