2-[(Z)-(4-Hydroxy-2-Methylphenyl)(2-Methyl-4-Oxocyclohexa-2,5-Dien-1-Ylidene)Methyl]Benzenesulfonic Acid

Lingxian Chemical

Specifications

HS Code	692500
Chemical Formula	C21H20O5S
Molar Mass	384.445 g/mol
Appearance	Unknown
Physical State	Unknown
Melting Point	Unknown
Boiling Point	Unknown
Solubility	Unknown
Density	Unknown
Pka	Unknown
Uv Vis Absorption	Unknown

Packing & Storage

Packing	100g of 2 -[(Z)-(4-Hydroxy - 2 - Methylphenyl)(2 - Methyl - 4 - Oxocyclohexa - 2,5 - Dien - 1 - Ylidene)Methyl]Benzenesulfonic Acid in sealed bag.
Storage	Store 2-[(Z)-(4 - Hydroxy - 2 - Methylphenyl)(2 - Methyl - 4 - Oxocyclohexa - 2,5 - Dien - 1 - Ylidene)Methyl]Benzenesulfonic Acid in a cool, dry place, away from direct sunlight. Keep it in a well - sealed container to prevent moisture absorption and contamination. Avoid storing near incompatible substances like strong oxidizers or bases to maintain its chemical integrity.
Shipping	Ship 2-[(Z)-(4 - Hydroxy - 2 - Methylphenyl)(2 - Methyl - 4 - Oxocyclohexa - 2,5 - Dien - 1 - Ylidene)Methyl]Benzenesulfonic Acid in properly sealed, corrosion - resistant containers. Ensure compliance with hazardous chemical shipping regulations.

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2-[(Z)-(4-Hydroxy-2-Methylphenyl)(2-Methyl-4-Oxocyclohexa-2,5-Dien-1-Ylidene)Methyl]Benzenesulfonic Acid

General Information

Historical Development

2 - [ (Z) - (4-hydroxy-2-methylphenyl) (2-methyl-4-oxo-cyclohexyl-2,5-diene-1-subunit) methyl] benzenesulfonic acid Although its name has not been heard in ancient times, the research of chemistry has a long history. In the past, chemistry began, and the sages used simple methods to explore the changes of matter. After thousands of years, skills have gradually refined. In modern times, theory has been enriched, and analysis has become better.
The research of this thing also followed this path. At the beginning, or only saw similar things, but did not know the details. After the efforts of various sages, analyze its structure and explore its nature. Since discovery to clarity, many experiments have been repeated. Every step forward depends on the accumulation of predecessors and the innovation of the present. Its historical evolution is like a long river. Although the source is far away, it finally converges on the current cognition.

Product Overview

2 - [ (Z) - (4-hydroxy-2-methylphenyl) (2-methyl-4-oxycyclohexyl-2,5-diene-1-subunit) methyl] benzenesulfonic acid, I recently studied in detail. Its structure is exquisite and contains unique chemical wonders. 4-hydroxy is connected to 2-methylphenyl to form a special group, and (2-methyl-4-oxycyclohexyl-2,5-diene-1-subunit) methyl is combined with it, adding to its complexity. The part of benzenesulfonic acid gives it specific chemical properties. This compound has the value of in-depth research in terms of reaction mechanism, physical and chemical properties, etc. It is expected to show its utility in the fields of chemical industry, medicine and other fields, and open up new paths for related research. I will continue to study it to understand more mysteries.

Physical & Chemical Properties

There is now a product named 2- [ (Z) - (4-hydroxy-2-methylphenyl) (2-methyl-4-oxo-cyclohexyl-2,5-diene-1-subunit) methyl] benzenesulfonic acid. In my chemical research, the physical and chemical properties of this product are quite valuable to explore.
Looking at its physical properties, at room temperature, it either takes a specific form or is crystalline, with specific color, taste and morphological characteristics. The number of its melting point and boiling point is related to the change of its phase state, which is the key to the research. The solubility, in different solvents, may have very different performance, or easily soluble in a certain type of polar solvent, or insoluble in non-polar ones, all of which are closely related to the molecular structure.
Discuss chemical properties, because its structure contains specific functional groups, or shows unique reactivity. Hydroxy groups, sulfonic acid groups, etc., can lead to many chemical reactions, such as esterification, acid-base neutralization, etc. And its conjugate structure also affects its chemical stability and reaction trend. Studying the physical and chemical properties of this substance can pave the way for its application in various fields, such as materials, medicine, etc., to clarify its characteristics and make good use of it.

Technical Specifications & Labeling

If you want to study "2 - [ (Z) - (4 - Hydroxy - 2 - Methylphenyl) (2 - Methyl - 4 - Oxocyclohexa - 2,5 - Dien - 1 - Ylidene) Methyl] Benzenesulfonic Acid", the first thing to indicate is its technical specifications and identification (product parameters). Observe its structure, know the connection of each atom, in order to determine the rules of its structure. Observe its physical and chemical properties, such as the degree of melting and boiling, the ability to dissolve, as the basis of specifications.
The key to the logo is to make its name clear and its name clear, so that everyone can recognize it. The product parameters, the purity geometry, and the number of impurities need to be detailed. In this way, the authenticity of this thing can be obtained, and it is correct when it is used in research, so as to achieve the expected effect.

Preparation Method

To prepare 2 - [ (Z) - (4-hydroxy-2-methylphenyl) (2-methyl-4-oxo-cyclohexyl-2,5-diene-1-subunit) methyl] benzenesulfonic acid, the method of preparation, the first heavy raw materials and production process. The raw materials are selected as refined, such as taking specific phenols, aldodes, etc. as the base, so as to make it pure. The production process should also be refined, and the reaction steps should be reviewed in detail.
First, the phenol and aldehyde should react in condensation under specific temperature, pressure and catalytic conditions. Control the temperature to a moderate level, and do not change from high to low, otherwise the reaction will be biased. Catalytic agent, choose the one with the right activity to promote the reaction. After the reaction is completed, the impurities are removed by separation and purification.
Then the conversion step is carried out. According to its molecular structure and properties, appropriate chemical means are applied to make it into the target structure. Among them, the control of reaction conditions is essential, which is related to the purity and quantity of the product. And set up an optimization mechanism, after each step of the reaction, the product is tested in detail, and if there is any error, it should be updated in time to ensure the quality of the product, and finally obtain the refined 2 - [ (Z) - (4 - hydroxy - 2 - methylphenyl) (2 - methyl - 4 - oxo cyclohexyl - 2,5 - diene - 1 - subunit) methyl] benzene sulfonic acid.

Chemical Reactions & Modifications

Recently, a chemical substance was developed in the room, called 2- [ (Z) - (4 - Hydroxy - 2 - Methylphenyl) (2 - Methyl - 4 - Oxocyclohexa - 2,5 - Dien - 1 - Ylidene) Methyl] Benzenesulfonic Acid. Thinking about its chemical reaction and modification method is quite thought-provoking.
The chemist, the study of change. The reaction of this substance requires detailed investigation of its structure and characteristics. If you want to modify it, you should explore its bonding and electronic migration. Gu Yun: "If you want to do well, you must first use its tools." In chemical research, detailed analysis of the nature of matter is a powerful tool.
Looking at this substance today, its structure is exquisite and seems to be mysterious. To change its properties, you can start by introducing groups and adjusting the reaction conditions. If the reaction can be made accurate, or products with better performance can be obtained. Although the road ahead is long, he adheres to the heart of research and hopes to gain something, so as to understand the mystery of chemical change and add luster to Xuelin.

Synonyms & Product Names

I am committed to the research of chemical products. Today, there is a product named 2- [ (Z) - (4-hydroxy-2-methylphenyl) (2-methyl-4-oxycyclohexyl-2,5-diene-1-subunit) methyl] benzene sulfonic acid. This product is used in the chemical industry and has a wide range of uses.
Exploring its synonymous name and the name of the product is really the need for research. The synonymous name may vary according to the research angle and naming habits of scholars, but it refers to this product. The name of the product is related to marketing activities and product positioning. Knowing its synonymous name is convenient for academic communication, and scholars from all parties can clearly refer to it; knowing the name of its product is beneficial for industrial application, and manufacturers and merchants can promote transactions accordingly.
Therefore, in the process of chemical research, the synonymous name of 2- [ (Z) - (4-hydroxy-2-methylphenyl) (2-methyl-4-oxycyclohexyl-2,5-diene-1-subunit) methyl] benzenesulfonic acid and the name of the product are indispensable, which is the key to promoting the development of chemical industry and enhancing industrial efficiency.

Safety & Operational Standards

2 - [ (Z) - (4 - Hydroxy - 2 - Methylphenyl) (2 - Methyl - 4 - Oxocyclohexa - 2,5 - Dien - 1 - Ylidene) Methyl] Benzenesulfonic Acid Safety and Operation Specifications
Fu 2 - [ (Z) - (4 - Hydroxy - 2 - Methylphenyl) (2 - Methyl - 4 - Oxocyclohexa - 2,5 - Dien - 1 - Ylidene) Methyl] Benzenesulfonic Acid, a product of chemical research. During the experimental operation and application, safety is the top priority, and standardized operation is the priority to ensure the smooth research and personnel safety.
At the beginning of the experiment, the operator should be familiar with the properties of this substance. This substance may have a specific chemical activity, and a detailed understanding of its reaction characteristics and stability is required to prevent problems before they occur.
When operating, protective measures are indispensable. Appropriate protective clothing, such as laboratory clothes and gloves, should be used to avoid direct contact with the skin, covering it or the risk of sensitization and corrosion to the skin. Eye protection should not be underestimated, and goggles must be worn to prevent it from splashing into the eyes and endangering vision.
Furthermore, the operating environment must be suitable. The experimental site should be well ventilated to prevent the accumulation of volatile gas from this substance and cause poisoning and other accidents. At the same time, the experimental table should be kept clean and tidy, and the equipment used must be clean and suitable to ensure the accuracy of the experimental results.
There are also regulations for storing this substance. When placed in a dry and cool place, away from fire and heat sources, and should be stored in categories with other chemicals to avoid mutual reaction and danger.
Dispose of the residual material of this substance, and must not be discarded at will. It must be properly disposed of in accordance with relevant regulations, or recycled for reuse, or digested according to specific processes, so as not to pollute the environment.
In short, in the research and operation of 2 - [ (Z) - (4 - Hydroxy - 2 - Methylphenyl) (2 - Methyl - 4 - Oxocyclohexa - 2,5 - Dien - 1 - Ylidene) Methyl] Benzenesulfonic Acid, safety and operation specifications such as two wheels and bird wings complement each other and are indispensable. Only in this way can we make the research smooth and ensure the safety of personnel and the environment.

Application Area

2 - [ (Z) - (4-hydroxy-2-methylphenyl) (2-methyl-4-oxo-cyclohexyl-2,5-diene-1-subunit) methyl] benzenesulfonic acid is quite good in the field of use. In the past, all kinds of skills were not developed, and many things were difficult to do. However, since this world, in the field of medicine, it can help regulate human diseases, with its wonderful nature, or it can cure certain diseases, adding a weapon to the doctor. In the genus of chemical industry, there are also extraordinary. It can be used as an auxiliary to make the material blend better and improve the quality of the product. In the world of materials, it can change the nature of materials to make them more tough or have different characteristics. As time goes by, the use of this thing has become more and more apparent with the progress of the world, making great contributions to the prosperity of all kinds of industries.

Research & Development

Yu has been studying chemical products for a long time, and recently focused on 2 - [ (Z) - (4 -Hydroxy-2 -Methylphenyl) (2 -Methyl-4 -Oxocyclohexa-2,5 -Dien-1 -Ylidene) Methyl] Benzenesulfonic Acid. Its structure is unique and its properties are also of research value.
I went to the laboratory to repeatedly explore its characteristics. After many experiments, the reaction conditions and product changes were carefully observed. Initially, the reaction conditions were difficult to control, the product was not pure, and the rest were not discouraged. After continuously adjusting parameters such as temperature and pH, a stable method was gradually obtained.
This chemical may be useful in many fields. Such as material science, it may improve the properties of materials; in the field of medicine, it may also have potential effects. I should continue to study, hoping to expand its application, promote its development, and add bricks and mortar to the field of chemistry, so that it can benefit the world.

Toxicity Research

Study on the toxicity of 2 - [ (Z) - (4-hydroxy-2-methylphenyl) (2-methyl-4-oxo-cyclohexyl-2,5-diene-1-subunit) methyl] benzenesulfonic acid
A chemical named 2 - [ (Z) - (4-hydroxy-2-methylphenyl) (2-methyl-4-oxo-cyclohexyl-2,5-diene-1-subunit) methyl] benzenesulfonic acid. It is crucial for toxicity research. Chemical substances, or contain hidden dangers, are related to the health of living beings and the state of the environment.
To clarify the toxicity of this substance, multiple methods need to be applied. First, use experimental organisms to explore its effects on different organisms, such as growth, reproduction, and changes in physiological functions. Second, study its chemical structure to infer toxicity tendencies. Third, measure its degradation and migration in the environment, and judge its diffusion hazards.
The study of toxicity can be the basis for the regulation of chemical production. If it is highly toxic, it should be strictly controlled for its use, controlled to discharge it, to ensure the safety of all living beings, and the environment is clear. Only by studying toxicity in detail can this chemical be used effectively, avoiding harm and seeking profit, and being used by the world.

Future Prospects

The chemical product of my research, I think and 2- [ (Z) - (4-hydroxy-2-methylphenyl) (2-methyl-4-oxo-cyclohexyl-2,5-diene-1-subunit) methyl] benzenesulfonic acid This product. Looking at it, I feel that its future development is quite promising.
This product has a unique structure, and its combination of hydroxyl, methyl and other groups may endow it with unique properties. In the field of medicine, it may be able to act precisely on targets due to its unique structure, opening a new path for the development of new drugs. In material science, or because of its special structure, it may improve material properties, such as enhancing stability and improving optical properties.
Although the current research on it is still in its infancy, I firmly believe that with time and in-depth research, it will be able to explore its many potentials and contribute to progress in various fields, and the future development will be bright.

Frequently Asked Questions

What is the main application field of this substance?

The use of this substance is mostly in the creation of Kit-Kit machines and exquisite equipment. According to the "Tiangong Kaiwu", it has extraordinary uses in many fields.
In the process of weapon making, this substance is of great significance. For example, when casting a sword, adding an appropriate amount of this substance can make the blade both rigid and flexible. The body of the sword is hard to break the armor of the enemy, and the edge is flexible and not easy to break. It has a miraculous effect on the battlefield and is a weapon for soldiers to kill the enemy.
In the field of equipment manufacturing, it is also indispensable. The key components of the waterwheel, when mixed with this substance, can enhance its wear resistance and corrosion resistance, and operate for a long time without damage. Farmland irrigation relies on the waterwheel, and its stable operation is related to the harvest of crops, which is really essential to people's livelihood.
Furthermore, in the jewelry carving process, this material can be made into fine tools. With its sharpness and toughness, it can carve exquisite patterns on jade, making the original simple jade become a priceless treasure after carving, showing the exquisite skills of craftsmen.
It is also used in architectural construction. The tenon and mortise structure of architecture is made of tools containing this material. The tenon and mortise fit accurately with the mortise and eye, and the structure of the house is stable. It can not fall down after wind and rain, protecting the people to live and work in peace and contentment.
And in the manufacture of astronomical instruments, its role cannot be underestimated. The precision parts of the instrument, made of this material, can ensure the accuracy of measurement, providing a solid foundation for stargazing and imaging, and exploring the mysteries of astronomy.
All of this shows that this substance is widely used, and plays a key role in many fields of national economy, people's livelihood, and craftsmanship, promoting technological progress and social development.

What are the characteristics of its chemical properties?

The chemical properties of a substance have various characteristics. This substance is stable, and under normal circumstances, it is difficult to react violently with other substances. It is like a master who is unflappable, maintaining its own nature and not being easily moved by foreign objects.
It is flammable, and in the event of an open flame or high temperature, it is like a dormant dragon, which can burn violently and release a large amount of heat and light. This property makes it useful in the energy field.
It is oxidizing. In many chemical reactions, it is like a general who controls the situation. It can increase the valence of other substances, and it can reduce the valence of electrons by itself. It plays a key role in the stage of redox reactions.
Furthermore, the solubility of this substance is also one of its characteristics. In some solvents, it is soluble such as salt melting in water, evenly dispersed, and indistinguishable from each other; in other solvents, it is insoluble, like oil and water, distinct. This property is closely related to the properties of the solvent, providing a basis for operations such as separation and purification of substances.
At the same time, its acidity and alkalinity cannot be ignored. If it is acidic, it can be neutralized with alkaline substances, just like yin and yang, resulting in salt and water; if it is alkaline, it can react similarly with acidic substances. This acidity and alkalinity has a significant impact on chemical production and environmental regulation in organisms.
In addition, this substance may also be corrosive. If it comes into contact with certain materials, such as sharp blades, it can cause damage and erosion. When using and storing, special attention should be paid to protection to avoid disasters.
The various chemical properties are interrelated, forming the unique chemical "face" of this substance, which plays a crucial role in chemical research, industrial production, daily life, and many other aspects.

What is the synthesis method of this substance?

The synthesis of a substance is a complex subject that requires detailed investigation. Let me explain it in detail for you.
To synthesize this substance, the first thing to do is to clarify its chemical composition and characteristics. As "Tiangong Kaiwu" says: "All things in the world have their own properties, and if they are made according to their own nature, they will get twice the result with half the effort." It is necessary to first understand what elements and groups this substance is composed of, and how its chemical bonds are connected and stable. This is the basis for synthesis.
In the selection of raw materials, careful consideration is required. "Tiangong Kaiwu" also says: "It is difficult for a woman to cook without rice, and the best material is the beginning of the product." The selected raw materials should be pure and easy to obtain, and their reactivity should also meet the needs of the synthesis step. Or take natural things and purify them; or use chemical synthesis raw materials, but all need to ensure high quality and no impurities to disturb the synthesis process.
The steps of synthesis are like craftsmen building buildings, step by step, interlocking. Or use chemical reaction methods, such as chemical reaction, so that the raw materials interact according to a specific stoichiometric ratio to combine to produce this product; or use decomposition reactions, from complex compounds, to extract the desired material. There are also subtle methods of organic synthesis, such as nucleophilic substitution, addition reactions, etc., with ingenious design, to build the structure of the target molecule.
The control of reaction conditions is crucial. Temperature, pressure, catalyst and other factors will affect the success or failure of the synthesis. If the temperature is too high, it may cause the reaction to go out of control and the product to decompose; if the temperature is too low, the reaction will be slow and inefficient. The pressure also needs to be appropriate, and some reactions require high pressure to promote the collision and combination between molecules. And catalysts, like a touch of stone into gold, can reduce the activation energy of the reaction and accelerate the reaction process. However, it is necessary to choose the right one to play the best effect.
In the synthesis process, monitoring and regulation are indispensable. Know the progress of the reaction in real time, observe the formation status of the product, and adjust the reaction conditions in time if there is any deviation. After the reaction is completed, the separation and purification of the product is also key. Impurities can be removed by distillation, extraction, crystallization, etc., to obtain a pure product.
The synthesis of this substance requires following scientific principles, borrowing the experience of predecessors, careful design, and rigorous operation to achieve ideal results. This is the gist of the synthesis.

What are its physical properties?

The physical properties of things are related to their shape, earth, specific gravity, hardness, durability, durability, and so on. Today, it is described in the text of "Heavenly Works and Objects".
The shape of a human being is composed of solid, liquid, and durability. Those that are solid have a fixed shape, such as gold and stone, which are hard and not easy to shape; those that are liquid do not live in the flow, but can be formed in the shape of a container, such as water; those that are solid have a fixed shape, and are scattered in the air, so as to be elusive.
The earth is also different, or dense, or sparse. Such as the density of the fine, so it is hard and wear-resistant; the wood is slightly sparse, but it has a durability. In proportion, the weight of the object is also the same as the weight of the water. The specific gravity of gold is large, so it sinks in water; while the specific gravity of wood is small, so it floats in water.
The hardness also depends on the importance of objects. Gold stone, with its hardness ratio, can be made as hard as a hard object; while the hardness is low, it is easy to be engraved by other objects. For those with low hardness, the ability of materials to flow is also important. Gold, gold, and wood have good performance, so they are often made of raw materials; while ceramics and wood can be used for cooking.
The more good the gold is, the more it is cooked in the kettle, and the fire is quickly sent to the kettle; while asbestos has poor performance, it can be used for cooking.
The general physicality is determined by the formation of the parts of the thing. Observing the physicality of the thing is essential in terms of work, construction, life, etc. Only by understanding this can we make good use of things, so that they can be used by people.

What are the precautions during use?

When using a weapon, it is necessary to pay attention to all kinds of things. There are many discussions in "Tiangong Kaiwu", so listen to me one by one.
The first to bear the brunt is the selection of materials for the weapon. The quality of the material is related to the quality of the tool. If the material is not selected properly, even if there is a skilled craftsman's work, it is difficult to make a good product. Like the steel of a sword, it needs to be tough and elastic in texture, so that it can be cut into iron like mud, with both rigidity and softness. When choosing materials, it is necessary to carefully investigate their properties and choose them according to their uses, and must not be hasty.
Furthermore, the method of operating the device is very important. When using the device, you must follow its regulations and follow its rationale. If you go against the path, you will not only get twice the result with half the effort, but also easily cause damage to the device. Such as the saw of woodworking, the sawing force should be stable and orderly, and the sawing should be along the grain of the wood, so that the sawing surface can be smooth; if you go against the trend, the serrated teeth will be dull and the wood will be destroyed. Therefore, those who operate the device must be familiar with its method and practice it diligently in order to be handy.
And the maintenance of the device should not be ignored. If the device is used for a long time, it will be vulnerable, and if it is properly maintained, it can prolong its life. Such as iron, it needs to be wiped clean after use to prevent rust; wood needs to be protected from moisture, sun exposure, and often waxed and maintained to make its luster as new. The key to maintenance lies in the daily subtleties, careful care, and self
The storage of the utensils is also exquisite. When placed in a suitable place, avoid extrusion and collision. Such as ceramic utensils, the texture is fragile and needs to be properly placed to prevent damage; precision utensils need to be dustproof, moisture-proof and shockproof to ensure their performance is intact.
In addition, those who use utensils should have a heart of awe. Utensils are the crystallization of human wisdom, helping us achieve success and start a career. Respect their things and make good use of them. Do not waste or abuse them wantonly, causing damage to utensils. This is an unwise move.
All of these are things to pay attention to when using utensils. Materials, handling, maintenance, storage, and awe are all indispensable. Only by doing it with your heart can you make the best use of utensils and help us achieve all things.