Benzenesulfonic Acid, Phenyl Ester

Lingxian Chemical

Specifications

HS Code	670181
Chemical Formula	C12H10O3S
Molar Mass	234.27 g/mol
Appearance	Solid (usually white or off - white)
Odor	May have a faint, characteristic odor
Solubility In Water	Insoluble
Solubility In Organic Solvents	Soluble in some organic solvents like benzene, toluene
Melting Point	Varies, typically in a certain range (needs more specific data)
Boiling Point	High boiling point (specific value depends on conditions)
Density	Needs specific experimental data
Stability	Stable under normal conditions, but may react with strong oxidizing agents

Packing & Storage

Packing	100 - gram vial of Benzenesulfonic Acid, Phenyl Ester, tightly sealed for safe storage.
Storage	Storage of Benzenesulfonic Acid, Phenyl Ester: Store this chemical in a cool, dry, well - ventilated area away from heat sources and open flames. Keep it in a tightly - sealed container to prevent moisture absorption and exposure to air, which could potentially lead to degradation. Separate it from oxidizing agents and incompatible substances to avoid chemical reactions.
Shipping	Benzenesulfonic acid, phenyl ester is shipped in well - sealed, corrosion - resistant containers. Compliance with strict chemical transportation regulations is ensured, with proper labeling indicating its nature and handling precautions to prevent any risks during transit.

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General Information

Historical Development

Phenyl benzenesulfonate is an organic compound. Its origin can be traced back to the time when chemical inquiry became more and more prosperous. In the past, chemists studied the properties and changes of substances, and worked hard in the field of organic synthesis.
At that time, everyone was eager for knowledge, hoping to create new things and increase chemical knowledge. After years of research and various experiments, phenyl benzenesulfonate first appeared in the world. Chemists analyzed its structure and characteristics, and it was revealed that it was used in chemical, pharmaceutical and other industries, or it could be used.
From the beginning to the beginning, to the gradual recognition of everyone, the development of phenyl benzenesulfonate depends on the unremitting efforts of chemists of all dynasties. Although years have passed, the heart of inquiry has not changed. It is expected that in the future, this compound can have a wider application and add new achievements to the well-being of mankind.

Product Overview

Description
Phenyl benzenesulfonate, an organic compound is also. Its shape may be colorless to slightly yellow liquid, with a special odor. This substance is obtained by the esterification reaction of benzenesulfonate and phenol.
In its molecular structure, the sulfonic acid group is connected to the benzene ring, and the ester is bonded to another benzene ring. Because of its unique structure, it has attracted much attention in the field of organic synthesis.
In industrial applications, it is often used as a plasticizer, stabilizer, etc., which can improve the flexibility and stability of materials. However, when using it, it is also necessary to pay attention to its potential hazards. Because it is irritating to a certain extent, or causes damage to the skin, eyes, etc. Therefore, when operating, follow strict safety procedures to ensure personal safety and environmental harmlessness.

Physical & Chemical Properties

"Physical Properties and Chemical Properties of Phenyl Benzenesulfonate"
Phenyl benzenesulfonate has unique physical properties. Looking at its state, at room temperature, it is usually a colorless to slightly yellow oily liquid with a mellow texture. Smell it, it has a specific aroma. Although it is not pungent, it is unique. Its boiling point is quite high, about [X] ° C. This is caused by intermolecular forces, which requires more energy for gasification.
When it comes to chemical properties, phenyl benzenesulfonate has ester properties. In case of strong alkali aqueous solutions, hydrolysis can occur. When hydrolyzed, the ester bond breaks, forming benzenesulfonate ions and phenol. This reaction is a process of nucleophilic substitution. Hydroxide ions in the base attack the ester carbonyl carbon, causing its structure to change. And the benzene ring part, due to the influence of sulfonate groups, changes the density distribution of electron clouds, and shows a specific activity in the electrophilic substitution reaction. Compared with benzene itself, the reaction check point and difficulty are different, which is a special compound with both physical and chemical properties.

Technical Specifications & Labeling

About the technical specifications and labeling of phenyl benzenesulfonate (product parameters)
Phenyl benzenesulfonate is a product of exquisite chemistry. Its technical specifications are related to the preparation method and the proportion of materials. When preparing, it is necessary to accurately measure and appropriate reaction conditions to make the raw materials blend and transform.
The selection of materials requires purity, the existence of impurities, or the process of random reaction. Reaction temperature and duration are all key. If the temperature is high, the reaction will be too fast, or by-product will be produced; if the temperature is low, the process will be slow and time-consuming. Improper time will also cause the product to be impure.
As for the labeling (product parameters), when its characteristics are clear, such as the color is turbid, and the state of solid liquid. It is necessary to list its physical and chemical constants, such as melting point and boiling point, so that the user can understand its characteristics, make good use of it, and apply it accurately in the chemical industry to ensure safety and efficiency.

Preparation Method

The method of making benzene sulfonate is related to raw materials and production process, reaction steps and catalytic mechanism. To make this product, first take an appropriate amount of benzene sulfonic acid, use benzene as raw material, and obtain it through sulfonation reaction. As for phenyl ester, phenol can interact with appropriate acylating agent.
Reaction step, first mix benzene sulfonic acid with phenol, and add a suitable catalyst at a specific temperature and pressure to promote the reaction. This process requires strict control of the reaction conditions. If the temperature is slightly higher, the side reaction will produce, resulting in impure products.
Catalytic mechanism, the catalyst can reduce the activation energy of the reaction and accelerate the reaction process. Common catalysts such as concentrated sulfuric acid can effectively catalyze the condensation of the two. In this way, through fine regulation of each link, benzene sulfonate can be obtained.

Chemical Reactions & Modifications

In the field of chemical industry, there are things called Benzenesulfonic Acid, Phenyl Ester, which can be studied in chemical changes.
Chemical changes are always the basis for material modification. The reaction of this compound may vary depending on conditions. At a suitable temperature and pressure, with an appropriate medium, its molecular structure may be changed. Covalent bonds are broken and reconnected, and the position of atoms is shifted to new combinations, resulting in different substances.
As for its modification, it is also meaningful. Or increase its stability, so that it can remain unchanged in the environment; or change its activity, so that it can be updated in response to other substances. By using scientific methods to explore its laws, this substance can be used in a wider way. Such as the production of medicine, or its transformation into a cure for diseases; such as the research of materials, or the use of its properties to create special materials.
Therefore, the study of the chemical reaction and modification of this substance is the key to chemical inquiry and can help the progress of various industries.

Synonyms & Product Names

Phenyl benzenesulfonate is also a chemical substance. Its aliases are also known in the industry. The synonyms of this thing, such as phenyl benzenesulfonate, all refer to the same thing. The names of commodities in the market also vary with the customary names of the industry.
The reason for its naming is that the group of benzenesulfonate and the phenyl group form an ester, so it gets this name. In the process of chemical preparation, through specific reaction steps, to combine this quality. It is used in industry and scientific research, or as an intermediate to assist in the synthesis of other substances; or because of its characteristics, it can be used in specific fields. In the use of appellations, although different names refer to the same thing, they are all to clarify its nature and facilitate its use. From the perspective of chemistry, the image of the same thing with different names is the norm, and only by clarifying its meaning can we make good use of this thing.

Safety & Operational Standards

Safety and Operation Specifications for Benzenesulfonic Acid (Phenyl Ester)
Benzenesulfonic Acid, Phenyl Ester is an important product in chemical research. Between its handling, safety regulations must not be ignored.
To ensure safety, the first environment. The place where this product is used must be well ventilated, so that the airflow is smooth and not blocked. And it is advisable to avoid open fires and hot topics to prevent unexpected explosions. The place where it is placed should be dry, cool, and far from oxidants, alkalis, etc., to avoid chemical reactions and cause disasters.
As for the method of handling, there are also regulations. The operator must wear appropriate protective gear, such as anti-chemical clothing, gloves, and eye protection glasses, to guard against possible hazards. When taking it, the movement should be slow, the technique should be steady, and do not spill. If you are not careful, sprinkle it on the surface, quickly cover it with inert substances such as sand and vermiculite, carefully store it, and then wash it with an appropriate agent. If it is stained on the body, rinse it with a large amount of water urgently, and then remove it with soap. If the situation is serious, seek medical attention as soon as possible.
Furthermore, the rules of its storage should not be ignored. When it is stored in a sealed device, it should be tightly sealed to prevent it from evaporating and escaping. In the storage warehouse, the temperature and humidity should be adjusted to an appropriate degree, and a special person should be set up to keep a detailed record of the entry and exit to ensure that nothing goes wrong.
In short, although benzenesulfonate is a commonly used product in chemical research, its safety and operation standards are related to personal safety and environmental stability. We chemical researchers must abide by the rules and not slack a little, so that the road to chemical research can be smooth and safe from disasters.

Application Area

Phenyl benzenesulfonate is a chemical product. Its application field is quite wide. In industry, it is often used as a synthesis aid for special materials. With its unique chemical properties, it can help the precise synthesis of reactants and improve the purity and quality of the products.
In the field of materials science, phenyl benzenesulfonate can participate in the preparation of high-performance polymers. After clever preparation and integration into the polymer system, it can significantly improve the mechanical properties of the material, such as enhancing its toughness and hardness, so that the material can play a stable role in various complex environments.
Furthermore, it can also be seen in some fine chemical products. Or as a synthetic raw material for special fragrances, or contribute unique chemical efficiency in high-end paint formulations to help coatings have better adhesion and durability. This is what phenyl benzenesulfonate is used for, and plays a key role in many application fields.

Research & Development

Taste the technology of chemical industry, changing with each passing day, and there are many substances. Today there are Benzenesulfonic Acid and Phenyl Ester, which are of great importance to our research field.
Begin to study this substance, observe its properties in detail, and explore its quality. Its shape, color and smell are the beginning of research. Then study its structure, analyze its molecular wonders, in order to understand its rationale.
We also study the method of its preparation, and strive to improve. Or choose good materials, or adjust the temperature, or control the duration, all want to get high-quality products. And observe its changing state under different conditions, hoping to gain something new.
Also think about the use of this substance, which can help production in industry, and may be effective in medicine. Therefore, we are committed to expanding its application to promote its development.
The way of research is long and far-reaching. We should make unremitting efforts to make progress in the research and development of Benzenesulfonic Acid and Phenyl Ester, and make achievements for the prosperity of chemical industry.

Toxicity Research

In the chemical industry, the study of poisons is a serious matter. Today there are Benzenesulfonic Acid and Phenyl Ester, and the study of their toxicity should not be ignored.
This substance is also the name of phenyl benzenesulfonate. The appearance and properties need to be carefully observed, and the odor and color are all important to distinguish its characteristics. In experimental investigation, observe its response to other substances, observe whether there is heterochromia and odor, and whether there is a violent change.
The study of toxicity is related to living things. Take white pigs and guinea pigs as a test, and observe their ingestion, inhalation, or percutaneous touch. If ingested, observe the response of the stomach, whether there is vomiting and diarrhea; if inhaled, observe the state of respiration, whether there is coughing, asthma and oppression; if percutaneous, observe the change of the skin, whether there is redness, swelling and ulceration.
Also explore its shadow in the environment, water, soil and gas all need to be reviewed. Dissolve in water, observe what should be aquatic things; disperse in soil, see the state of vegetation; escape in gas, observe the feelings of surrounding organisms.
The study of toxicity is the foundation of karma and the safety of the public. It must be observed. Be careful to ensure the well-being of the people and the peaceful environment.

Future Prospects

Benzenesulfonic Acid, Phenyl Ester, although the current knowledge is limited, its future prospects are really exciting. The path of chemistry is endless to explore, and this object may have unique properties and potential. In the field of industry, it may be able to open up new paths for material synthesis, optimize the production process and improve the quality of products with its characteristics. In the realm of scientific research, it may be the key to unlock new theories, lead our generation into the mysteries of the microscopic, and expand the boundaries of cognition. Although the road ahead is uncertain, adhering to the spirit of research and diligent exploration, we will definitely be able to tap its hidden value, draw a brilliant chapter in the future development of chemistry, and add bricks and tiles to create a new situation for the well-being of mankind.

Frequently Asked Questions

What are the main uses of phenyl benzenesulfonate?

Thyme and Thyme are all ingredients extracted from Thyme. It is mainly used in a variety of fields, and it can be used in all domains.
In the field of It is often used as a fragrance raw material, added to perfumes, aromatherapy and other products, to create a pleasant fragrance, with human senses, creating a comfortable atmosphere.
In the field, the two can also be effective. Can be used as a natural oil, because of its antibacterial and antibacterial properties, it can protect crops from disease damage, reduce the use of water, protect the environment, and protect the health of the product.
In the field of daily chemicals, it is often used in toothpaste, washing water and other products. Toothpaste can remove the smell of the mouth and make the mouth healthy; washing water can treat the skin and protect the health of the skin.
In short, thyrophenol and thyrosinia are important in many aspects such as food, flavors, factories, daily chemicals, etc., which are of great benefit to people's lives and health. It is a treasure given by nature.

What are the physical properties of phenyl benzenesulfonate?

Gypsum, its objects have many physical properties. Looking at its color, it is often white, gray, yellow and white, etc. The white ones are like snow, pure and flawless; the slightly yellow ones are like the morning light, adding a little softness. Its texture is relatively soft, and it can be scratched with your fingernails, but it does not lose its toughness and has a certain ability to resist external forces.
In terms of its luster, it is glassy, with light shining, flashing warm light, like beautiful jade emitting a soft glow. And gypsum has good transparency, some categories can be transparent, and it looks like a spirit.
Furthermore, the cleavage characteristics of gypsum are also very unique. The cleavage surface is extremely flat and smooth, and it is easy to split in a specific direction. This characteristic is quite beneficial in processing and use.
Its density is moderate, neither too heavy to make it difficult to carry, nor too light to lose its essence.
As for its heating, it will lose water after heating, and its properties will change accordingly. This characteristic plays a key role in many process applications. In the field of construction, it can be made into gypsum board, which can be made into a comfortable space because of its light weight, heat insulation, and sound absorption. In artistic creation, it can be molded into exquisite sculptures to show the charm of art. Gypsum has unique physical properties and is widely used. It is a wonder of creation in heaven and earth.

What are the chemical properties of phenyl benzenesulfonate?

Borax is an important compound of boron, which has unique chemical properties and is widely used in many fields.
The chemical name of borax is sodium tetraborate decahydrate, and the chemical formula is\ (Na_2B_4O_7\ cdot10H_2O\). The appearance of this substance is often colorless translucent crystal or white crystalline powder, which is soft and easily soluble in water.
The aqueous solution of borax is alkaline. When borax is hydrolyzed, borate ions combine with hydrogen ions ionized by water, which increases the concentration of hydroxide ions in the solution, so it appears alkaline. This alkaline property plays a significant role in many chemical reactions and industrial processes.
Borax has certain reducing properties. Under certain conditions, the valence of boron in borax can change, thus exhibiting the ability to reduce. This property has applications in metallurgy and other fields, and can be used in the refining and purification of certain metals.
Borax reacts with acid to form boric acid. This reaction is quite important, and boric acid is widely used in glass, ceramics and other industries. For example, in glass manufacturing, boric acid can improve the thermal and chemical stability of the glass, and improve the performance of the glass.
Borax gradually loses its crystalline water when heated. As the temperature increases, the crystalline water will be removed in turn, and eventually become anhydrous borax. This property has application value in some reactions that require control of moisture content or the use of dehydration processes.
Borax is relatively stable in air, but its stability is affected by factors such as environmental humidity and temperature. When the humidity is high, borax may absorb a certain amount of water, while at high temperatures it is more likely to lose crystal water.
The unique chemical properties of borax make it play a key role in the chemical, pharmaceutical, food and other industries, bringing many conveniences and benefits to human production and life.

What are the synthesis methods of phenyl benzenesulfonate?

There are many ways to synthesize sucrose and aldose, and each has its own advantages.
First, start with carbohydrates. Such as glucose and fructose, both of which are sugars, and can be a specific reverse step, the synthesis of sucrose. First, the effect of glucose enzymes is reduced to a certain medium, and then fructose is catalyzed by the appropriate catalyst and the next phase is combined to obtain sucrose. To obtain glyaldehyde, materials containing five-carbon sugars, such as xylose, can be made in the environment of acid catalysis. In this way, the raw materials are easy to obtain, but the reverse parts need to be carefully controlled.
Second, from the synthesis of the way. Start with some common compounds, such as methanol, formaldehyde, etc. First, methanol and a carbonyl-containing compound, under the action of chemical catalysis, can be combined and reversed, which is the basic carbon framework. In this way, a series of functional modifications can be made, so that the molecule gradually has the characteristics of sucrose or sugar aldehyde. This way can be used for anti-reaction. However, there are many steps, and the requirements for anti-reaction techniques are high, and it needs to be refined and refined to extract all the medium substances.
Third, the method of biosynthesis. Utilize the ability of microorganisms, such as certain bacteria or yeasts. Provide microorganisms with a specific culture base, and control the culture of the parts, so that they can be replaced by microorganisms to synthesize sucrose or sugar aldehyde. In this way, the education and cultivation of microorganisms requires a lot of effort, and the rate may be limited by the physiological characteristics of microorganisms.
All these synthetic methods have their own advantages and disadvantages. According to the needs of the experts, such as the availability of raw materials, cost considerations, and the requirements of the quality of the materials, the ideal synthetic effect can be obtained.

What are the precautions for the use of phenyl benzenesulfonate?

Those who have cane sugar have a sweet taste and a peaceful nature, and are used in many aspects such as diet and medicinal use. When using it, there are some matters to pay attention to.
First, it concerns the dosage. Although cane sugar is sweet and pleasing to the mouth, it should not be eaten too much. "Drinking Meal is about to say:" The sweet one makes people full ", because cane sugar is slow, eating too much can easily cause the spleen and stomach to fail to transport and transform, and the disease of fullness occurs. Therefore, the use of cane sugar should be moderate, and the amount varies according to the person's physique, age, labor, etc. Such as the delicate viscera of children, eating too much cane sugar can easily damage the spleen and stomach, and it is easy to cause dental caries; the spleen and stomach of the elderly are gradually weakened, and it is not advisable to eat too much, so as not to hinder and transport.
Second, about collocation. Cane sugar should also be used with caution when collocation with various ingredients and medicines. If eaten with cold things, it may aggravate the symptoms of spleen and stomach deficiency and cold. If pears are originally cold, if a large amount of sucrose is used with them, those with weak spleen and stomach will eat them, and they may suffer from abdominal pain and diarrhea. When used medicinally, they are compatible with certain drugs, and the pharmacology needs to be carefully reviewed. If used with Coptis chinensis, Coptis chinensis is bitter and cold. It is originally used to clear away heat and dryness, and the sweetness of sucrose may slow down its medicinal power. Therefore, the dosage of the two should be considered according to the needs of the disease.
Third, it is related to quality. When buying sucrose, you must choose the one with high quality. High-quality sucrose, white as snow, uniform particles, and no odor If the cane sugar is dark and has a musty taste, it must have deteriorated and cannot be used. Such deteriorated cane sugar not only loses its original effect, but also is harmful to people's health.
Fourth, the method of using time. In cooking, the timing of using cane sugar is also particular. When cooking, if you add cane sugar too early, it is easy to burn, lose its sweet taste, and affect the color of the dish. When making desserts, such as sugar cakes, the degree of integration of cane sugar and temperature control are all related to the taste and quality of the finished product.
Therefore, when using cane sugar and icing, you must not be careless and carefully observe the above things in order to obtain its benefits and avoid its harm. Make good use of this flavor to increase diet and health.