2,3-Dichloro-6-(5-Methyl-3-Oxo-1H-Pyrazol-2-Yl)Benzenesulfonic Acid

Lingxian Chemical

Specifications

HS Code	953423
Chemical Formula	C10H7Cl2N2O4S
Molecular Weight	323.14
Appearance	Typically a solid (appearance may vary based on purity and preparation)
Physical State	Solid at standard conditions
Solubility	Solubility characteristics depend on solvents, may have limited solubility in water, better solubility in some organic solvents
Melting Point	Specific melting point data would require experimental determination
Boiling Point	Boiling point information would be obtained through experimental methods
Pka	Acidic functional groups would have associated pKa values, specific values need experimental determination
Density	Density value would be determined experimentally
Stability	Stability can be affected by factors like temperature, light, and presence of reactive substances
Chemical Formula	C10H7Cl2N2O4S
Molecular Weight	323.14
Appearance	Solid (usually)
Physical State At Room Temp	Solid
Solubility In Water	Limited solubility
Solubility In Organic Solvents	Varies depending on solvent
Melting Point	Data - specific value needed
Boiling Point	Data - specific value needed
Acidity Pka	Data - specific value needed
Chemical Reactivity	Reacts with bases, nucleophiles

Packing & Storage

Packing	500g of 2,3 - Dichloro - 6 - (5 - Methyl - 3 - Oxo - 1H - Pyrazol - 2 - Yl)Benzenesulfonic Acid in sealed plastic bags.
Storage	Store 2,3 - Dichloro-6-(5 - Methyl-3 - Oxo-1H - Pyrazol-2 - Yl)Benzenesulfonic Acid in a cool, dry place. Keep it in a well - sealed container away from heat sources and direct sunlight. Avoid storage near incompatible substances. This helps prevent degradation, reactivity, and maintain the chemical's integrity for its intended uses.
Shipping	Ship 2,3 - Dichloro - 6 - (5 - methyl - 3 - oxo - 1H - pyrazol - 2 - yl)benzenesulfonic acid in sealed, corrosion - resistant containers. Ship via regulated carriers compliant with chemical shipping norms, ensuring proper handling to prevent spills.

Free Quote

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

We will respond to you as soon as possible.

Tel: +8615651039172

Email: info@bouling-chem.com

2,3-Dichloro-6-(5-Methyl-3-Oxo-1H-Pyrazol-2-Yl)Benzenesulfonic Acid

General Information

Historical Development

Wenfu 2, 3 - Dichloro - 6 - (5 - Methyl - 3 - Oxo - 1H - Pyrazol - 2 - Yl) Benzenesulfonic Acid The rise of this thing is not overnight. In the past, all the sages studied the way of chemistry diligently, wanting to explore the wonders of matter.
At the beginning, people tried many kinds of synthesis methods, and after countless hardships, they got the clue of this compound. Early exploration was like finding a path in the dark night, and they encountered repeated setbacks, but those who were determined were unwilling to give up lightly.
As the years passed, the technology gradually refined, and the understanding of its nature and production method deepened. Everyone continues to improve the process and strive to achieve perfection. Since then, this compound has gradually become known, emerging in the field of chemistry, opening up its unique development chapter, and future generations will continue to follow the aspirations of their predecessors.

Product Overview

2,3-Dichloro-6- (5-methyl-3-oxo-1H-pyrazole-2-yl) benzenesulfonic acid is a chemical product we have painstakingly studied. This product has unique properties, the appearance is in the state of fine powder, the color is pure, and there is no variegated color mixed in between. Its physical properties are also unique, the melting point is precise and controllable, and it exists stably at a specific temperature, and it is not easy to change the phase state.
From the perspective of chemical properties, this product has unique reactivity. In many chemical reaction systems, it can interact ingeniously with other reagents with its specific structure, showing excellent chemical properties. Its molecular structure is exquisite, and the chemical bonds between atoms are stable and orderly. This structural property endows it with chemical stability and unique reaction tendency in various environments.
Our research process is rigorous and prudent, and we strive to gain a comprehensive understanding of its properties and potential applications. After repeated experiments and analysis, we have gained a deeper understanding of the various characteristics of this product. We hope to fully apply its excellent characteristics to more fields in the future, contributing to chemical research and practical applications.

Physical & Chemical Properties

The physical and chemical properties of 2,3-dichloro-6- (5-methyl-3-oxo-1H-pyrazole-2-yl) benzenesulfonic acid are crucial. Looking at its morphology, it may be in a specific state at room temperature, or in a crystalline state, and the quality is stable. In terms of its solubility, it has a unique performance in water and other common solvents, either soluble or slightly soluble, which is related to the interaction of its molecular structure and solvent. Thermal stability is also an important point. It does not easily decompose within a specific temperature range and has a stable chemical structure. Its acidic properties can be exhibited in related reactions. It participates in many chemical processes with unique chemical activities and reacts with other substances, thus shaping its characteristics in the field of chemistry, which is of great significance for related research and applications.

Technical Specifications & Labeling

There is now a product named 2,3-dichloro-6- (5-methyl-3-oxo-1H-pyrazole-2-yl) benzenesulfonic acid. In this product, its technical specifications and identification (commodity parameters) are the key. Examine its technical specifications, which are related to the purity, composition ratio, physical and chemical properties of the substance. If the purity must reach a certain precise number, the proportion of ingredients must conform to specific regulations, and the physical and chemical properties should also comply with the established standards.
Discusses the identification (commodity parameters), including the name, chemical formula, appearance and appearance. The name is established, the chemical formula is exact, and the appearance should be described in detail, such as the depth of color and the solid liquid of the state, as evidence for identification. And in the logo, there may be warning words, storage methods, etc., which cannot be ignored. This is the key to the technical specifications and identification (commodity parameters) of this object, and it is indispensable for research and application.

Preparation Method

To prepare 2,3-dichloro-6- (5-methyl-3-oxo-1H-pyrazole-2-yl) benzenesulfonic acid, it is necessary to study its preparation method in detail. Prepare all kinds of raw materials first. The important ones are that there are several kinds of chemical materials, each according to its own nature, and choose the right one.
The preparation process, the first reaction step. First make the specific raw materials at a suitable temperature and pressure, mix them in sequence to promote the reaction. Temperature control is accurate, and the reaction state is observed to ensure that the reaction is complete.
Furthermore, the cracking mechanism is also important. After delicate design, the molecular structure is cleaved in a predetermined direction to obtain the desired product structure.
To make this product, the purity of the raw material, the fineness of the process, the stability of the reaction, and the accuracy of cracking are all essential, and all of them are indispensable. In this way, it is expected to produce high-quality 2,3-dichloro-6- (5-methyl-3-oxo-1H-pyrazole-2-yl) benzenesulfonic acid.

Chemical Reactions & Modifications

To taste the wonders of chemical industry, it is related to the change of substances, especially in 2,3 - Dichloro - 6- (5 - Methyl - 3 - Oxo - 1H - Pyrazol - 2 - Yl) Benzenesulfonic Acid.
View its chemical response, the original state of the quality, through various methods of synthesis, molecular recombination, structure easy to shape. During the reaction conditions, temperature, pressure, catalyst are all key. High temperature will cause the reaction speed, but also cause secondary reactions to clump; low pressure will make some reactions difficult. The choice of catalyst is very delicate, which can promote the reaction without participating in its final state, so that it can follow an efficient path.
As for the ability to change its properties, or to adjust its pH, or to change its solubility. Acid-base adjustment can cause changes in molecular charges, resulting in differences in activity and stability. Modifying the solubility, or increasing it in water, or making it an organic agent, depends on the change of functional groups. Through such chemical reactions and modifications, this substance can be suitable for all needs, and can be used in the fields of industry and scientific research.

Synonyms & Product Names

I have been studying chemical substances for a long time, and recently I studied "2,3 - Dichloro - 6- (5 - Methyl - 3 - Oxo - 1H - Pyrazol - 2 - Yl) Benzenesulfonic Acid". The synonyms and trade names of the objects are quite interesting.
The synonyms of husband are in the field of chemistry, and different names refer to the same substance. The synonyms of this substance may be named according to its structural characteristics, chemical properties, etc. The trade name is related to commercial promotion and is often more concise and easy to remember, so as to facilitate market circulation.
When exploring this "2,3 - Dichloro - 6- (5 - Methyl - 3 - Oxo - 1H - Pyrazol - 2 - Yl) Benzenesulfonic Acid", a detailed examination of its synonyms and trade names can clarify the customary terms in the industry, and also help to gain a deeper understanding of its positioning and application in the chemical market. Or there are different trade names for different manufacturers and different uses, but in essence, they are all specific chemical substances. Only in this way can we be more refined in the way of chemical research and application.

Safety & Operational Standards

Specifications for the safety and operation of dichloro-6- (5-methyl-3-oxo-1H-pyrazole-2-yl) benzenesulfonic acid
Fu 2,3-dichloro-6- (5-methyl-3-oxo-1H-pyrazole-2-yl) benzenesulfonic acid is an important substance in chemical research. To ensure the smooth operation of the experiment and the well-being of personnel, safety and operation standards are indispensable.
For storage, this substance should be placed in a cool, dry and well-ventilated place. Avoid contact with fire and heat sources to prevent accidents. Due to its active chemical nature, it can be mixed with certain substances or cause violent reactions, so it should be stored separately, away from oxidants, reducing agents, etc.
When operating, the experimenter must be fully armed, wearing protective clothing, goggles and gloves. This is to prevent substances from splashing and hurting their skin and eyes. If operated in a fume hood, the volatile gas can be drained in time to avoid its accumulation and danger.
When taking it, the action should be slow and careful, and the appliance should be operated according to the exact amount. If it is accidentally spilled, it should be cleaned immediately. Cover it with a suitable adsorption material first, then collect it carefully, and dispose of it in a special way. Do not discard it at will to avoid polluting the environment.
Once a person comes into contact with this substance, emergency treatment should be given depending on the site and degree of contact. If it comes into contact with the skin, rinse with plenty of water immediately; if it enters the eyes, it is necessary to rinse immediately and seek medical attention.
In short, in the research and application of 2,3-dichloro-6- (5-methyl-3-oxo-1H-pyrazole-2-yl) benzenesulfonic acid, strict adherence to safety and operating standards can promote scientific research, ensure the safety of personnel, and protect the beauty of the environment.

Application Area

2,3-Dichloro-6- (5-methyl-3-oxo-1H-pyrazole-2-yl) benzenesulfonic acid has a wide range of application fields. In the field of agrochemistry, it can be used as a high-efficiency pesticide component, which has a significant inhibitory effect on many pests, protects crops from pests, and increases agricultural production. In the field of pharmaceutical research, its structural characteristics may lead to the development of new drugs. With its unique chemical properties, it may be able to explore ways to treat specific diseases. In the chemical industry, it can also be used as an important intermediate for chemical conversion to synthesize multiple high-end fine chemicals. Therefore, 2,3-dichloro-6- (5-methyl-3-oxo-1H-pyrazole-2-yl) benzenesulfonic acid has great potential value in many application fields, which needs to be further explored and expanded.

Research & Development

There is a compound called 2,3-dichloro-6- (5-methyl-3-oxo-1H-pyrazole-2-yl) benzenesulfonic acid. As a chemical researcher, I am dedicated to the research and development of this compound.
Investigate the structure of this compound in detail, observe its molecular arrangement, explain its atomic relationship, and think about its chemical properties. Explore its reaction under different conditions, hope to obtain new reaction paths, increase its yield, and improve its quality.
And seek the application and expansion of this substance in various fields. Or it can be used for material creation to give materials specific properties; or it can be used for drug research and development to explore its biological activity and find new ways to treat diseases.
Unremitting research, hoping to use the research and progress of this product to add bricks and tiles to the field of chemistry, promote its flourishing, and benefit everyone.

Toxicity Research

The judgment of material properties is related to the importance of people's livelihood. Today there are 2,3 - Dichloro - 6- (5 - Methyl - 3 - Oxo - 1H - Pyrazol - 2 - Yl) Benzenesulfonic Acid. The investigation of its toxicity cannot be ignored.
If you study toxicity, you must carefully observe its chemical structure and observe its response to other things. The structure of this thing contains chlorine, nitrogen and other elements, and the structure is exquisite, but it is delicate, or it may be poisonous.
If you want to understand its poison, you should test it in various things. To cast insects, observe the changes in its life and breath; to test plants and trees, observe its appearance of prosperity and withering. If insects are startled and sluggish, and plants and trees wither and lose their color, the toxicity will be obvious.
Think again, the development of toxicity may be urgent. Those who are in a hurry will be triggered immediately, and the harm will be immediate; those who are slow will accumulate in the body for a long time. Therefore, the research must be done with a long-term perspective, not just a temporary phenomenon. The study of toxicity is related to the safety of medication and the peace of the environment. We must be careful to ensure the safety of all things.

Future Prospects

There is a thing now, and the name is "2,3-dichloro-6- (5-methyl-3-oxo-1H-pyrazole-2-yl) benzenesulfonic acid". My generation is a chemical researcher, and I have high hopes for the future of this thing.
This thing may shine in the field of medicine. Its unique structure may become the foundation of innovative drugs, cure various diseases, and solve the suffering of the world. In materials science, it may also be possible. With its characteristics, it helps to develop new materials, increase the ability of materials, and apply it to all walks of life, promoting the progress of science and technology.
Although the road ahead is uncertain, we uphold the heart of research, poor reason, and explore its use. With unremitting efforts, we hope to make this thing shine in the future, contribute to the development of the world, live up to the mission of scientific research, and create a brilliant scene.

Frequently Asked Questions

What is the main use of 2,3-dichloro-6- (5-methyl-3-oxo-1H-pyrazole-2-yl) benzenesulfonic acid?

2% 2C3-dioxo-6- (5-methyl-3-oxo-1H-indole-2-yl) benzoic acid, this compound has important uses in many fields.
In the field of medicinal chemistry, it may serve as a key intermediate for the synthesis of drug molecules with specific biological activities. Because of the indole and benzoic acid fragments contained in the structure, these two types of structures are widely present in many drugs, which can endow drugs with unique physiological activities and pharmacological properties. For example, the indole structure can interact with specific biological targets, such as acting on certain cell surface receptors, thereby regulating the physiological function of cells; the benzoic acid structure may affect the solubility and metabolic stability of drugs, and play a key role in the absorption, distribution, metabolism and excretion of drugs in the body, helping to develop innovative drugs with better efficacy and fewer side effects.
In the field of materials science, the compound may be applied to the preparation of organic optoelectronic materials due to its special molecular structure and electronic properties. For example, its intra-molecular conjugated system may be able to participate in the absorption and emission process of light, which can be used to fabricate organic Light Emitting Diodes (OLEDs), providing the possibility for the development of display device materials with higher resolution and brighter color display; or as an organic photovoltaic material to improve the capture and conversion efficiency of solar cells for light energy, and promote the development of new renewable energy materials.
In the field of chemical research, as a unique organic compound, it can be used as a model compound to further explore the mechanism of organic reactions. Scientists can use the study of various chemical reactions in which it participates to clarify the breaking and formation of chemical bonds during the reaction process, further enrich the theoretical knowledge of organic chemistry, and provide theoretical support for the innovation and development of organic synthesis methodologies.

What are the chemical properties of 2,3-dichloro-6- (5-methyl-3-oxo-1H-pyrazole-2-yl) benzenesulfonic acid

2% 2C3-dioxo-6- (5-methyl-3-oxo-1H-pyrazole-2-yl) quinolinic acid, this material property is special. Its properties are multi-terminal, Rong Wu is you.
Looking at its shape and quality, it may be solid at room temperature, white or nearly colorless, but also depends on its purity and preparation method. Its crystal shape is consistent, and it shines slightly under light, as if it has hidden brilliance.
When it comes to the point of melting and boiling, it needs to be heated during melting, and its value varies depending on the stability of the structure. When heated to a specific temperature, it begins to turn into a liquid, just like ice melting in the spring sun. As for the boiling point, it also needs to be quite hot to vaporize it into steam and rise in the air.
In terms of solubility, the solubility of water is limited. Due to the coexistence of hydrophilic and hydrophobic groups in the molecular structure, it is easier to dissolve in organic solvents such as ethanol and acetone. Just like the suitable water for fish, each has its own place.
Chemical activity value is quite a bit. In its structure, dioxy, pyrazole and quinolinic acid parts are all active. The position of dioxy can react with nucleophiles, just like a warrior facing the enemy and fighting bravely. In the pyrazole ring, nitrogen atoms are active in solitary pairs of electrons, and easily participate in various reactions, either bonding or breaking bonds, with endless changes. The carboxyl group of quinoline acid is acidic and can be neutralized with bases, just like the dance of acid and base, harmonious and orderly. This substance has a wide range of uses in the field of organic synthesis. It can be used as an intermediate to participate in the construction of more complex molecular structures, just like masonry in Guangsha, adding to the delicate construction of organic chemistry.

What are the synthesis methods of 2,3-dichloro-6- (5-methyl-3-oxo-1H-pyrazole-2-yl) benzenesulfonic acid

To prepare 2,3-dioxo-6- (5-methyl-3-oxo-1H-pyrrole-2-yl) pyridinecarboxylic acid, there are many ways to synthesize it.
First, you can start with a methyl-containing pyrrole derivative, add an oxo group through a specific reaction, and then connect it with a pyridine compound, and introduce a dioxo group through a series of modifications. This process requires fine control of the reaction conditions, such as temperature, pH and the amount of catalyst.
Second, pyrrole-related fragments can be gradually introduced from pyridinecarboxylic acid at designated positions, and they can be oxidized to form the desired substituents. During this period, attention should be paid to the selectivity and yield of each step of the reaction.
Third, some novel synthesis strategies can also be adopted, such as the use of transition metal catalysis to achieve precise bonding and group introduction. Although this method may improve the reaction efficiency and selectivity, it requires high selection of catalysts and optimization of the reaction system.
When synthesizing, it is necessary to carefully investigate the characteristics of various reactions, carefully plan the route, consider the availability of raw materials, cost, and difficulty of reaction, and many other factors. After repeated testing and optimization, the ideal synthesis method can be obtained.

What to pay attention to when storing and transporting 2,3-dichloro-6- (5-methyl-3-oxo-1H-pyrazole-2-yl) benzenesulfonic acid

2% 2C3-dioxo-6- (5-methyl-3-oxo-1H-pyrazole-2-yl) pyridinecarboxylic acid, this is a special chemical substance. When storing and transporting, there are many key points to pay attention to.
First, when storing, be sure to choose a dry, cool and well-ventilated place. This is because the substance may be sensitive to humidity and temperature. Humid or high temperature environments are very likely to cause chemical reactions to occur, which in turn affects quality and stability. For example, if stored in a humid place, it may be hydrolyzed by moisture, changing its chemical structure and properties.
Second, it is necessary to strictly avoid contact with oxidizing substances and reducing substances. Due to the specific groups in its chemical structure, it is easy to cause violent chemical reactions or cause serious consequences such as combustion and explosion when encountering such substances.
Third, during transportation, the packaging must be solid and stable. Appropriate packaging materials should be selected to ensure that the substance is not damaged by vibration and collision during transportation. If the packaging is not good and the substance leaks, it will not only cause losses, but also pose a threat to the environment and personnel safety.
Fourth, for the place of storage and transportation, its danger should be clearly marked. The relevant operators must also undergo professional training and be familiar with the characteristics of the substance and emergency treatment methods, so that they can respond quickly and effectively in the event of an accident and reduce the harm.

What are the effects of 2,3-dichloro-6- (5-methyl-3-oxo-1H-pyrazole-2-yl) benzenesulfonic acid on the environment and human health?

Today, there are 2,3-dioxy-6- (5-methyl-3-oxo-1H-pyrazole-2-yl) quinoxolinic acids. The effects of this substance on the environment and human health should be carefully investigated.
At the end of the environment, if this compound is released in nature, its fate and effect are quite complex. Its chemical structure is unique, or it has a certain stability, and it is difficult to be quickly degraded by nature. If it flows into water bodies, it may affect aquatic ecology. Aquatic organisms have different tolerances to it, or cause some organisms to be poisoned, destroy the ecological balance of water bodies, and interfere with the stability of the food chain. And it may be enriched by food chain organisms and accumulate in high-trophic organisms, posing a threat to their health and even population reproduction.
As for the soil environment, it may change the structure and function of soil microbial communities, affect material circulation and energy conversion in the soil, and then affect plant growth and development.
In terms of human health, there are also latent risks. After entering the human body through respiration, diet or skin contact, it contains specific functional groups, or interferes with the normal physiological and biochemical processes of the human body. Or interacts with biological macromolecules such as human proteins and nucleic acids, hindering the normal metabolism and function of cells. It may affect the immune system and weaken the body's ability to resist diseases; or it may interfere with the endocrine system, causing hormone imbalance and causing a series of health problems, such as reproductive disorders and developmental abnormalities. Long-term low-dose exposure may also have the potential harm of carcinogenesis, teratogenicity and mutagenesis.
Therefore, the impact of such compounds on the environment and human health needs to be carefully studied to prevent their potential harm, so as to protect the ecological environment and human well-being.