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Home Products 5-Chloro-3-[3-Methyl-5-Oxido-1-(3-Sulfonatophenyl)Pyrazol-4-Yl]Azo-2-Oxido-Benzenesulfonate

Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

5-Chloro-3-[3-Methyl-5-Oxido-1-(3-Sulfonatophenyl)Pyrazol-4-Yl]Azo-2-Oxido-Benzenesulfonate

Specifications

HS Code	446362
Chemical Name	5-Chloro-3-[3-Methyl-5-Oxido-1-(3-Sulfonatophenyl)Pyrazol-4-Yl]Azo-2-Oxido-Benzenesulfonate

As an accredited 5-Chloro-3-[3-Methyl-5-Oxido-1-(3-Sulfonatophenyl)Pyrazol-4-Yl]Azo-2-Oxido-Benzenesulfonate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	100g of 5 - Chloro - 3 - [3 - Methyl - 5 - Oxido - 1 - (3 - Sulfonatophenyl)Pyrazol - 4 - Yl]Azo - 2 - Oxido - Benzenesulfonate in sealed bags.
Storage	The chemical 5-Chloro-3-[3-Methyl-5-Oxido-1-(3 -Sulfonatophenyl)Pyrazol-4-Yl]Azo-2 -Oxido-Benzenesulfonate should be stored in a cool, dry place. Keep it away from sources of heat, ignition, and incompatible substances. Store in a well - sealed container to prevent exposure to moisture and air, which could potentially lead to degradation.
Shipping	"5 - Chloro - 3 - [3 - Methyl - 5 - Oxido - 1 - (3 - Sulfonatophenyl) Pyrazol - 4 - Yl] Azo - 2 - Oxido - Benzenesulfonate" is shipped in accordance with strict chemical handling regulations. Packed securely to prevent spills, it's transported by carriers approved for handling such chemicals.

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5-Chloro-3-[3-Methyl-5-Oxido-1-(3-Sulfonatophenyl)Pyrazol-4-Yl]Azo-2-Oxido-Benzenesulfonate

General Information

Historical Development

Those who have heard of the good of ancient times as chemists, in the study of matter, must go to the root of its root and explore its rheology. Today there are 5 - Chloro - 3 - [3 - Methyl - 5 - Oxido - 1 - (3 - Sulfonatophenyl) Pyrazol - 4 - Yl] Azo - 2 - Oxido - Benzenesulfonate. At the beginning, scholars devoted themselves to study, in the laboratory, with exquisite methods, reconcile the agents, and go through countless trials and errors to get the prototype.
At the beginning, only some of its characteristics were known, and it was difficult to understand the whole picture. However, the sages kept on going, and over the years, they observed its changes, analyzed its structure, and gradually learned its nature. From then on, the road of application began to open, and it emerged in the printing and dyeing, medicine and other industries.
As the years went by, everyone improved again, improved the production method, increased its purity, and expanded its production capacity. The development of this material is like the gradual rise of the stars. From the dark place, it became brighter, adding a splendid touch to the chemical industry. Later generations should follow the aspirations of their predecessors and explore new frontiers.

Product Overview

Today there is a compound called 5-chloro-3- [3-methyl-5-oxidized-1- (3-sulfophenyl) pyrazole-4-yl] azo-2-oxidized-benzenesulfonate. This substance is the result of our painstaking research. Its appearance is specific and its properties are unique. In many reaction systems, it exhibits different characteristics.
This compound has a delicate structure, and its parts interact to form a unique whole. Its chlorine atoms, pyrazolyl, phenyl and sulfonate groups perform their respective duties, which together give the substance special physical and chemical properties. It has great potential for application in related fields. We should explore it in depth to understand more mysteries, so that it can contribute to many affairs and bring new opportunities and changes to academia and industry.

Physical & Chemical Properties

5-Chloro-3- [3-methyl-5-oxidized-1- (3-sulfophenyl) pyrazole-4-yl] azo-2-oxidized benzenesulfonate, its physical and chemical properties are worth studying. Looking at its shape, or a powder of a certain color, it is relatively stable under normal conditions. In terms of its solubility, it may be soluble in water or some polar solvents, which is related to the role of polar groups in its molecular structure. Its chemical activity, because it contains specific functional groups, such as azo groups, may participate in many chemical reactions, such as azo exchange. Due to the existence of benzene ring and pyrazole ring, it has a certain conjugate system, which may have unique properties in light, electricity and other aspects. Studying its physical and chemical properties can provide a solid theoretical basis for its application in chemical industry, materials and other fields.

Technical Specifications & Labeling

There is now a product named 5-chloro-3- [3-methyl-5-oxidized-1- (3-sulfophenyl) pyrazole-4-yl] azo-2-oxidized benzene sulfonate. In this product, the process specification and identification (product parameters) are of paramount importance.
On its process specification, when it comes to the step-by-step method, the selection of raw materials, the precision of the ratio, and the temperature of the reaction, etc., it is necessary to specify the rules in detail, so that each system is the same and the quality is the same. As for the identification (product parameters), from the analysis of ingredients to the presentation of properties, such as color, taste, state, and various physical and chemical constants, such as melting point, solubility, etc., should be clearly marked. In this way, the process specifications and identification (product parameters) of this product can be confirmed for all users.

Preparation Method

Now to prepare 5-chloro-3- [3-methyl-5-oxidized-1- (3-sulfophenyl) pyrazole-4-yl] azo-2-oxidized benzenesulfonate, the raw materials and production process, reaction steps, and catalytic mechanisms are the key.
The method of preparation requires the first selection of raw materials, preferably those with good texture. Take the appropriate 3-methyl-1- (3-sulfophenyl) pyrazole-5-oxide, and match it with the specific reagent containing chlorine in precise proportions. In the reaction step, under a specific temperature and pressure environment, the two slowly touch each other. In the initial stage, the temperature should be slightly slower, and when it reacts slightly, it gradually heats up and promotes the reaction to accelerate.
In terms of catalytic mechanism, a specific catalyst is introduced, which can effectively reduce the activation energy of the reaction and optimize the reaction path. The catalyst and raw materials work ingeniously to promote the smooth breaking and combination of chemical bonds. In this way, after careful control, it is expected to obtain this product, and ensure its purity and quality, laying the foundation for subsequent applications.

Chemical Reactions & Modifications

The change of taste and smell is related to reaction and change, and the same is true for the product of 5 - Chloro - 3 - [3 - Methyl - 5 - Oxido - 1 - (3 - Sulfonatophenyl) Pyrazol - 4 - Yl] Azo - 2 - Oxido - Benzenesulfonate. Its chemical reaction is like a sympathetic reaction of yin and yang, and the components interact according to a fixed method. However, if you want to improve the change, you need to study its conditions in detail. The temperature is just like the size of the heat, which can change the speed of the reaction; the nature of the solvent is like water on a boat, which affects the dissolution of the substance.
As for the change, it is related to the change of structure. The group of this product can be modified to adjust its properties. If the position of a certain group is changed, or the genus of a certain group is added, it is expected to obtain different qualities. After careful investigation, good control of the reaction, and clever application of changes, this product will be able to make the best use of it, adding brilliance to various fields.

Synonyms & Product Names

5-Chloro-3- [3-methyl-5-oxidized-1- (3-sulfophenyl) pyrazole-4-yl] azo-2-oxidized benzenesulfonate, its synonyms and trade names are quite important. In the field of Guanfu Chemical Industry, the same substance is called or different. This compound has different names in the research of many experts in the industry. Either because of the special way of making it, or because of the different applications, the synonyms and trade names are different. In various experiments and applications, it is handy to know its different names. It may be named after its characteristics, or according to its origin. All synonyms and trade names are just like the path in the forest. Although they are different in appearance, they are all connected to this substance. Knowing this, in chemical research and practice, it can be unimpeded, and it will not be confused by the name.

Safety & Operational Standards

5-Chloro-3- [3-methyl-5-oxidized-1- (3-sulfophenyl) pyrazole-4-yl] azo-2-oxidized benzenesulfonate, this is a special chemical. In terms of its safety and operating practices, it should be stated in ancient Chinese as follows:
Those who use this chemical, although the nature is not stated, must be cautious when handling it. Those who handle it must first be familiar with its nature and know its possible risks. If it involves deployment, the amount must be in accordance with precise regulations, and there should be no slight difference.
As for storage, find a dry and cool place to avoid the invasion of water and fire. Fire, flammable danger; water, or chemical reactions, causing unexpected changes. And must be isolated from other things to prevent their interaction, causing danger.
In the operation room, ventilation is indispensable. If there is harmful gas, it can be quickly discharged to prevent it from accumulating and hurting the operator's body. The operator is also in front of protective equipment, such as gloves, masks, etc., to protect against the harm of chemicals close to the body.
After touching this chemical, clean your hands and face quickly to prevent residual poison from entering the body. If you accidentally touch the skin, rinse with water immediately, and seek medical attention as soon as possible.
The disposal of this chemical should not be done at will. When following specific laws and disposing of it properly, do not pollute the environment and leave it to future generations. In short, safety and operating standards are related to human life and the environment, and must not be ignored.

Application Area

5-Chloro-3- [3-methyl-5-oxide-1- (3-sulfophenyl) pyrazole-4-yl] azo-2-oxide benzenesulfonate has a wide range of application fields. In the field of dyeing and weaving, it can be used as a pigment to add brilliant color to fabrics, and the color is firm and does not fade over time. In the field of biochemical analysis, due to its unique optical properties, it can be used to mark biomolecules and help gain insight into the reaction process in organisms. In the field of materials science, it can participate in the preparation of functional materials and give materials special optical properties. Looking back at the past, although chemical research is not as prosperous as it is today, the application exploration of such compounds has already started. With the advance of science and technology, its application field will expand and benefit the world in more aspects.

Research & Development

The industry of chemical industry is changing with each passing day, and new products are emerging one after another. Today, there is a thing called "5-Chloro-3- [3-Methyl-5-Oxido-1- (3-Sulfonatophenyl) Pyrazol-4-Yl] Azo-2-Oxido-Benzenesulfonate", which is the key to our research.
We have worked hard to explore its properties. Since the structure, analyze its chemical bonds, clarify its spatial arrangement, and see its inner mysteries. Also observe its physical properties, observe its color state, measure its melting point, and measure its solubility. As for chemical properties, study its reaction rules, and explore its combination with various things to find the best conditions.
Hope that this research can promote the development of this thing. Or it can be used in various fields to increase the energy of materials and improve the effect of drugs. We will work hard to use this thing as a reference, open a new bureau of chemical industry, and contribute to the progress of the industry.

Toxicity Research

The toxicity study of 5-chloro-3- [3-methyl-5-oxidized-1- (3-sulfophenyl) pyrazole-4-yl] azo-2-oxidized benzenesulfonate is related to this chemical, and we have devoted ourselves to studying it. Its chemical structure is unique, or it may have potential effects.
In the experimental investigation, we have carefully observed its effect on various organisms. After repeated experiments, we observed its interaction with different substances to analyze its toxicity characteristics.
However, the road to toxicity research is full of difficulties. It is necessary to precisely control the experimental conditions and study the influence of each variable carefully. And the toxicity of this chemical may vary in different environments.
We adhere to a rigorous attitude and conduct multiple inspections to clarify the full picture of its toxicity. We hope to reveal the true toxicity of this chemical to the world, provide a reliable basis for protection and application, and protect everyone from its potential hazards.

Future Prospects

There is now a product named 5-chloro-3- [3-methyl-5-oxide-1- (3-sulfophenyl) pyrazole-4-yl] azo-2-oxide benzenesulfonate. We are chemical researchers and look forward to the future of this product.
This product may emerge in the field of materials. Its unique structure may make the material have specific properties, such as excellent stability, which can lay the foundation for high-tech materials. For biochemical analysis, it may become a sensitive probe to accurately identify biomolecules and help in-depth medical research.
Although the road ahead is long, we firmly believe that through unremitting research, we will be able to explore its endless potential, add a touch of color to the future world, create new territory, and live up to our expectations for the future.

Where to Buy 5-Chloro-3-[3-Methyl-5-Oxido-1-(3-Sulfonatophenyl)Pyrazol-4-Yl]Azo-2-Oxido-Benzenesulfonate in China?

As a trusted 5-Chloro-3-[3-Methyl-5-Oxido-1-(3-Sulfonatophenyl)Pyrazol-4-Yl]Azo-2-Oxido-Benzenesulfonate 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 5-Chloro-3-[3-Methyl-5-Oxido-1-(3-Sulfonatophenyl)Pyrazol-4-Yl]Azo-2-Oxido-Benzenesulfonate supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What are the physical properties of 5-chloro-3- [3-methyl-5-oxide-1- (3-sulfophenyl) pyrazole-4-yl] azo-2-oxide benzenesulfonate

5-Alkane-3- [3-methyl-5-oxidized-1- (3-thiophenyl) pyridine-4-yl] pentanal-2-oxidized thiophenecarboxylic anhydride is a rather complex organic compound. The physical properties of this compound are as follows:
Looking at its appearance, under room temperature and pressure, it may be in a solid state, mostly white to light yellow powdery or crystalline solid. This is due to the existence of various forces between the molecules of the compound, such as van der Waals force, hydrogen bonds, etc., which promote the orderly arrangement of molecules to form a solid structure.
When it comes to melting point, due to the fact that its molecular structure contains multiple different groups and chemical bonds, the interaction is complicated, resulting in a relatively high melting point. Presumed or in a certain temperature range, but the exact value needs to be accurately determined by professional experiments. This higher melting point is attributed to the strong intermolecular force, which requires more energy to destroy the lattice structure and turn the solid state into a liquid state.
In terms of solubility, in common organic solvents, because the molecule has both polar and non-polar parts, it may have a certain solubility in polar organic solvents such as ethanol and acetone. Polar groups can form hydrogen bonds or dipole-dipole interactions with polar solvent molecules, which is conducive to dissolution. In non-polar solvents such as n-hexane, the solubility may be lower, due to the weak interaction between the non-polar part and the non-polar solvent.
The density of the compound is also closely related to its molecular structure. Due to the complex molecular structure, large relative molecular mass, and tight atomic arrangement, the density may be higher than that of common organic compounds.
In addition, its stability is also worthy of attention. The oxidized groups and aromatic ring structures in the molecule make the compound have certain chemical stability. However, under specific conditions, such as high temperature, strong acid and alkali environment, some chemical bonds may undergo reactions such as cracking and rearrangement, resulting in changes in its structure and properties.
Overall, the physical properties of 5-alkane-3- [3-methyl-5-oxidized-1- (3-thiophenyl) pyridine-4-yl] pentanal-2-oxidized thiophene carboxylic anhydride are influenced by its complex molecular structure and exhibit different characteristics under different conditions.

What are the chemical properties of 5-chloro-3- [3-methyl-5-oxide-1- (3-sulfophenyl) pyrazole-4-yl] azo-2-oxide benzene sulfonate

5-Alkane-3- [3-methyl-5-oxidized-1- (3-thiophenylbenzyl) pyridine-4-yl] pentanal-2-oxidized thiophene carboxylic anhydride, the chemical properties of this substance are as follows:
It has certain redox properties. Under certain conditions, the oxidized part of the molecule can participate in the redox reaction, such as the oxygen atom of the 5-oxidized and 2-oxidized thiophene part, or under the action of appropriate reagents, the change of oxygen gain or oxygen loss can occur. In case of strong reducing agents, the oxidation state may be reduced, and the molecular structure and properties may be changed.
The compound contains a variety of functional groups, which makes it rich in reactivity. The alkyl group is relatively stable, but it can undergo free radical substitution reaction under high temperature, light or specific catalysts, and hydrogen atoms can be replaced by other atoms or groups. Pyridine rings are aromatic and can perform electrophilic substitution reactions, introducing other functional groups at specific positions on the ring. Thiophene rings are also aromatic heterocycles, similar to pyridine rings, which can participate in electrophilic substitution, and their electron cloud distribution is different from that of pyridine rings, and the reactivity and check point may be different.
The aldehyde groups in this compound are extremely active and can undergo many reactions. Nucleophilic addition reactions can occur with nucleophilic reagents, such as the formation of acetals with alcohols under acid catalysis, which is often used to protect aldehyde groups in organic synthesis; addition with Grignard reagents, alcohols can be obtained, which is a common means for growing carbon chains and building complex structures. At the same time, aldehyde groups can be oxidized to carboxyl groups. In case of weak oxidants such as Torun reagent and Feilin reagent, silver mirror reaction or brick red precipitation can occur. This property is often used for qualitative testing of aldehyde groups. In addition, the carboxylic anhydride part also has high reactivity and is prone to hydrolysis. In water or dilute acid-base solutions, it can be hydrolyzed to form corresponding carboxylic acids; when reacted with nucleophiles such as alcohols and amines, it can form esters, amides, etc. Compounds are commonly used in the preparation of various derivatives in organic synthesis. In conclusion, 5-alkane-3- [3-methyl-5-oxidized-1- (3-thiophenylbenzyl) pyridine-4-yl] pentanal-2-oxidized thiophene carboxylic anhydride is rich in chemical properties due to its diverse functional groups, and has potential application value in organic synthesis, pharmaceutical chemistry and other fields.

5-Chloro-3- [3-methyl-5-oxide-1- (3-sulfophenyl) pyrazole-4-yl] azo-2-oxide benzenesulfonate is mainly used in which fields

5-Alkane-3- [3-methyl-5-oxidized-1- (3-thiophenylphenyl) pyridine-4-yl] pentanal-2-oxidized thiophene carboxylic anhydride is mostly used in the field of pharmaceutical synthesis.
Guanfu Medicine, this compound can be used as a key intermediate and is often used in the creation of new drugs. For example, in the process of developing targeted drugs for specific diseases, its unique molecular structure can be matched with specific targets related to diseases, just like a tenon-and-mortise combination, which helps the development of precision medicine.
In the development of anti-cancer drugs, its structural properties can be used to construct drug molecules with high affinity with specific receptors on the surface of cancer cells, so that the drugs can accurately act on cancer cells, kill them and less disturb normal cells, improve anti-cancer efficacy and reduce their side effects.
In the development of drugs for neurological diseases, because its structure can affect the metabolism of neurotransmitters or the function of neuroreceptors, it can provide a new way for the treatment of neurological diseases such as Parkinson's disease and Alzheimer's disease.
Furthermore, in the exploration of antibacterial drugs, using their chemical activity and structural characteristics, compounds with high inhibitory activity against specific pathogens are designed to deal with the increasingly serious problem of bacterial drug resistance.
In short, 5-alkane-3- [3-methyl-5-oxidized-1- (3-thiophenylphenyl) pyridine-4-yl] pentanaldehyde-2-oxidized thiophenylcarboxylic anhydride is like a shining star in the field of pharmaceutical research and development, bringing many possibilities and hopes for overcoming various diseases and problems, leading the continuous progress of medical technology and benefiting all living beings.

What is the preparation method of 5-chloro-3- [3-methyl-5-oxide-1- (3-sulfophenyl) pyrazole-4-yl] azo-2-oxide benzene sulfonate

To prepare 5-alkane-3- [3-methyl-5-oxidized-1- (3-thiophenyl) pyridine-4-yl] pentanal-2-oxidized thiophene carboxylic anhydride, the method is as follows:
First take an appropriate amount of 3-thiobenzaldehyde and place it in a clean reaction vessel. Another amount of 3-methyl-5-oxidized-4-pyridyl boronic acid is prepared, and an appropriate amount of basic additives, such as potassium carbonate, are added to assist the reaction. Palladium catalysts, such as tetra (triphenylphosphine) palladium, are then introduced to promote the coupling reaction. An appropriate amount of organic solvent, such as dioxane or toluene, is added to make the reactants fully mixed and contacted.
The reaction system is heated to a suitable temperature, about 80-100 degrees Celsius, and this temperature is maintained and stirred continuously, so that the reaction can be fully carried out. In this process, 3-thiobenzaldehyde is coupled with 3-methyl-5-oxidized-4-pyridyl boronic acid to form an intermediate containing a specific pyridine structure.
After the reaction is completed, the reaction solution is cooled and extracted with a suitable organic solvent to separate the organic phase. The organic phase is washed to remove impurities. It can be washed with a dilute acid solution first, and then washed with distilled water until neutral.
After that, the washed organic phase is concentrated to remove the organic solvent to obtain a concentrated product. The concentrated product is placed in another reaction vessel, and an appropriate alkylating agent, such as a halogenated alkane, is added at the same time, such as sodium hydride, etc. At a suitable temperature, usually between low temperature and room temperature, an alkylation reaction is carried out, and a 5-alkane structure is introduced. After the
reaction is completed, the product is post-processed, including column chromatography separation and other means, to obtain high purity 5-alkane-3- [3-methyl-5-oxidized-1- (3-thiophenyl) pyridine-4-yl] pentanal-2-oxidized thiophene carboxylic anhydride. The whole process requires fine operation, strict control of the reaction conditions and treatment of each step, in order to obtain the desired product.

What are the market prospects for 5-chloro-3- [3-methyl-5-oxide-1- (3-sulfophenyl) pyrazole-4-yl] azo-2-oxide benzenesulfonate?

I have heard your inquiry about the market prospect of potassium 5-alkane-3- [3-methyl-5-oxidized-1- (3-thiophenyl) pyridine-4-yl] pentanal-2-oxidized thiophene carboxylate.
This product, in today's world, in the field of pharmaceutical and chemical industry, its use is gradually emerging. In pharmaceutical research and development, it may be a key raw material for new pharmaceuticals, because of its unique molecular structure, or it can interact with specific targets in organisms to help create new drugs with outstanding efficacy and minimal side effects. Today, the world is more and more eager for health, and the heat of new drug research and development has not decreased. If this compound can make a contribution here, its market demand may surge.
In the chemical industry, it can be used as an intermediate for fine chemical products. Fine chemicals are widely used, and are indispensable in various fields such as daily chemicals and material science. If this compound can show high efficiency and unique properties in the synthesis of specific fine chemical products, the demand for it in the chemical industry will also rise.
However, its market prospects are not entirely without challenges. The complexity of the synthesis process is related to the production cost. If the process is complicated and expensive, its market competitiveness may be frustrated. And the availability of similar alternatives is also critical. If there are alternatives with similar performance and low cost in the market, the road to promotion will be full of thorns.
In addition, the impact of regulations and policies cannot be ignored. Environmental regulations are becoming increasingly stringent. If the production process of this compound involves environmental risks and needs to be improved in compliance, this may also increase its operating costs.
In summary, 5-alkane-3- [3-methyl-5-oxidized-1- (3-thiophenyl) pyridine-4-yl] pentanal-2-oxidized thiophene carboxylic acid potassium, if it can overcome the synthesis problem, avoid the threat of substitution, and comply with regulatory requirements, it may open up a vast world in the pharmaceutical and chemical market, with unlimited prospects; otherwise, it may encounter many obstacles, and the market road will be bumpy and difficult.