2,5-Bis[(1,3-Dioxobutyl)Amino]Benzenesulfonic Acid

Lingxian Chemical

Specifications

HS Code	794106
Chemical Formula	C14H14N2O9S
Molecular Weight	386.335 g/mol
Appearance	Typically appears as a solid
Solubility	Solubility characteristics depend on solvent, may be sparingly soluble in some organic solvents
Pka	Specific pKa values would require experimental determination for its acidic functional groups
Melting Point	Melting point data would need to be experimentally obtained
Density	Density data would require experimental measurement
Stability	Stability can be affected by factors like heat, light, and contact with reactive substances
Reactivity	Reacts with substances that can interact with its carbonyl, amino, and sulfonic acid groups

Packing & Storage

Packing	500g of 2,5 - Bis[(1,3 - Dioxobutyl)Amino]Benzenesulfonic Acid in air - tight plastic bags.
Storage	2,5 - Bis[(1,3 - dioxobutyl)amino]benzenesulfonic acid should be stored in a cool, dry place away from heat sources and direct sunlight. Keep it in a well - sealed container to prevent moisture absorption and potential contamination. Store separately from incompatible substances like strong oxidizing agents to avoid chemical reactions that could compromise its integrity.
Shipping	The chemical 2,5 - Bis[(1,3 - Dioxobutyl)Amino]Benzenesulfonic Acid is likely shipped in well - sealed, corrosion - resistant containers. Adequate labeling regarding its nature is used, following all relevant safety regulations for chemical shipments.

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2,5-Bis[(1,3-Dioxobutyl)Amino]Benzenesulfonic Acid

General Information

Historical Development

Checking the past, the industry of chemistry has gradually flourished, and many new things have emerged. 2,5-bis [ (1,3-dioxybutyl) amino] benzenesulfonic acid also has its origin and rheology. At the beginning, chemists worked hard and repeatedly in the laboratory to analyze its structure and study its characteristics. After years, the process has gradually improved, and it has been able to be prepared stably. Its application has also gradually expanded from the limited field, and it has emerged in various industrial ends. Although the road of exploration in the past was full of thorns, the ambition of chemists was as solid as a rock, which finally made this compound known to the world. In the history of chemistry, it added a strong touch of color and paved the foundation for subsequent development.

Product Overview

There is a substance called 2,5-bis [ (1,3-dioxobutyl) amino] benzenesulfonic acid. Its shape is unknown, but its structure can be deduced from its name. This is a product of organic synthesis, which may have specific uses in the chemical industry.
Its molecular structure contains a benzene ring, with (1,3-dioxobutyl) amino groups connected to the ring at two places, and a sulfonic acid group attached to the benzene ring. This structure may endow the substance with unique physical and chemical properties.
In the process of synthesis, it is necessary to precisely control the reaction conditions to obtain this pure product. Or used in the preparation of dyes and pharmaceutical intermediates, because the specific structure can participate in many chemical reactions and help to generate other substances. Although it has not been seen in person, it is considered a useful material for the chemical industry due to its chemical principles.

Physical & Chemical Properties

In 2024, a chemical researcher focused on studying the substance "2,5 - Bis [ (1,3 - Dioxobutyl) Amino] Benzenesulfonic Acid" in the laboratory.
The physical properties of this substance are finely crystalline in appearance, white and pure in color, like the first snow in winter, delicate and even. It feels light and smooth to the touch, placed in the palm of the hand, and seems to be agile. Sniffing it, the breath is weak and almost invisible. Only by getting close to it can you feel a touch of elegance, just like the ethereal breath in the deep mountains and forests.
Its chemical properties are also interesting. In common solvents, it dissolves in contact with water, just like ice and snow entering a stream, quietly dissipating, forming a uniform solution. This process is like a wonderful fusion of the microscopic world. In a specific chemical reaction, the active groups in its structure, such as smart dancers, interact with other substances, and undergo reactions such as substitution and addition, showing unique chemical activities, as if performing a wonderful chemical chapter on the microscopic stage. After repeated experiments and investigations, many characteristics have gradually become clear, paving the way for subsequent in-depth research and application.

Technical Specifications & Labeling

This chemical product is called 2,5-bis [ (1,3-dioxobutyl) amino] benzenesulfonic acid. To clarify its technical specifications and identification (product parameters), it is really important.
The technical specifications of this product are related to its quality. From the selection of raw materials, it is necessary to carefully select, and there must be few impurities to ensure its purity. The preparation process also needs to be rigorous. The control of temperature and duration affects its final properties. The reaction conditions are slightly poor, or the product is impure.
As for the identification (product parameters), it should be clearly identifiable. Label its chemical structure to clarify its essence; list the purity values in detail to show the quality; and then note the relevant physical and chemical properties, such as melting point, boiling point, etc., so that the user can understand. In this way, the technical specifications and identification (product parameters) of this 2,5-bis [ (1,3-dioxybutyl) amino] benzenesulfonic acid can be clarified, providing a solid foundation for subsequent use.

Preparation Method

The product of 2,5-bis [ (1,3-dioxobutyl) amino] benzenesulfonic acid is to be prepared. The method of preparation is related to the raw materials and the production process, the reaction steps and the catalytic mechanism.
First take all suitable raw materials and prepare them according to a specific ratio. In the reaction vessel, control the temperature and pressure so that the phase can act according to the predetermined reaction steps. In the meantime, by means of a suitable catalytic mechanism, the reaction speed can be promoted and the yield of the product can be increased.
The raw materials need to be carefully selected to maintain purity and the production process should be accurate. The order of the reaction steps should not be disordered, and the catalytic mechanism should also be appropriate. In this way, it is expected to obtain high-quality 2,5-bis [ (1,3-dioxybutyl) amino] benzenesulfonic acid products, which can be used in chemical production and other applications.

Chemical Reactions & Modifications

Fu 2,5 -bis [ (1,3 -dioxobutyl) amino] benzenesulfonic acid has a lot to learn about chemical reactions and modifications. Its reactions also often involve many chemical mechanisms. Or due to different reaction conditions, such as temperature, pH, and the ratio of reactants, the reaction results are different.
Looking at its modification aims to optimize its properties. Or to enhance its stability, or to improve its solubility, or to increase its activity. Modification methods, or by means of chemical modification, introduce specific groups to change its molecular structure.
The reaction and modification of this chemical is related to many fields. In materials science, or for the research and development of new materials; in chemical production, or can improve product quality. Therefore, in detail, making good use of its reaction and modification properties will definitely benefit the development of related industries.

Synonyms & Product Names

Today, there is a product named 2,5-bis [ (1,3-dioxobutyl) amino] benzenesulfonic acid. This substance is of great significance in my chemical research. The discussion of its synonyms and trade names is also an important topic.
The synonyms of husband are often used in academia to express their characteristics and structure. The trade name is mostly based on the consideration of the merchant, hoping to show its uniqueness and attract people's attention. However, both revolve around the essence of this chemical substance.
We explore this 2,5-bis [ (1,3-dioxobutyl) amino] benzenesulfonic acid, hoping to clarify the relationship between its synonyms and the trade name. Synonyms or show their chemical properties, trade names or related to the field of their application. Knowing both of these is of great benefit to their research, production and application.

Safety & Operational Standards

In July 2024, the 2,5 - Bis [ (1,3 - Dioxobutyl) Amino] Benzenesulfonic Acid product I developed is related to safety and operating standards. It is described as follows:
In the production process, the use and deployment of all raw materials must follow precise proportions and procedures. The operator should clean his hands and face, wear clean work clothes and gloves to prevent impurities from mixing in, and ensure that the surrounding environment is dry, ventilated, and away from fire and heat sources. If the raw materials are spilled, do not panic, and immediately clean them up according to the established procedures to avoid the spread of pollution.
When storing, this product should be placed in a cool, dark and dry place, separated from oxidizing agents, reducing agents and alkaline substances to prevent chemical reactions. The stored container must be tightly sealed, and warning signs should be posted in a conspicuous place to remind people to pay attention to safety.
As for transportation, the packaging must be solid and stable enough to withstand the bumps and vibrations on the way. During handling, the operator should handle it lightly. It is strictly forbidden to throw or roll, so as to avoid the leakage of the product due to the damage of the container. If a leak occurs, immediately evacuate the surrounding people, demarcate the warning area, and collect, clean and dispose of it according to the regulations after the professionals wear protective equipment.
When using, the user must read the operation guide carefully and follow its steps strictly. If you come into contact with this product during the experiment, when operating in a fume hood, wear complete protective equipment, such as goggles, masks, protective gloves, etc. After the operation is completed, clean the experimental table in time and properly dispose of the remaining products and waste.
Only by strictly observing safety and operating standards can we ensure the safety of the production, storage, transportation and use of 2,5 - Bis [ (1,3 - Dioxobutyl) Amino] Benzenesulfonic Acid products, and give full play to its due effectiveness. It also protects the safety of personnel and the environment from damage.

Application Area

2,5-Bis [ (1,3-dioxobutyl) amino] benzenesulfonic acid is useful in many fields. In the field of printing and dyeing, it can be used as a dye intermediate, which helps the dye to be brighter and have better fastness. The color dyed by the fabric through its participation is lasting for a long time and does not fade easily. In chemical synthesis, it is a key raw material. Through specific processes, a variety of fine chemicals with excellent performance can be produced. In addition, it is also indispensable in the preparation of some special materials, which can optimize material properties and make them more suitable for specific environments and applications. With its unique chemical structure, this compound plays an important role in many practical fields, and is an important bridge between chemical research and industrial applications, promoting the continuous progress of related industries.

Research & Development

Modern chemistry is refined, and the category is diverse. Today, we study 2,5-bis [ (1,3-dioxobutyl) amino] benzenesulfonic acid, which is related to chemistry. At the beginning, by observing its structure and analyzing its characteristics, we know the wonderful structure of molecules, which has unique properties.
Study its preparation method, explore the selection of raw materials, and study the control of conditions. After repeated trials, the best method is obtained, and the yield gradually increases. The field of application also involves a wide range of parties, in the dyeing and weaving industry, to help the beauty of color; in the road of medicine, there is potential power.
However, the road of development is not smooth. Difficulties arise frequently, such as the pursuit of purity and the control of cost. We should make unremitting research and use scientific methods to break through all kinds of difficulties. I hope this product will shine in the future and make outstanding contributions to the progress of chemistry.

Toxicity Research

Study on the toxicity of 2,5-bis [ (1,3-dioxobutyl) amino] benzenesulfonic acid
Fu 2,5-bis [ (1,3-dioxobutyl) amino] benzenesulfonic acid, the chemical research is also important today. In the course of my chemical investigation, it is essential to observe the toxicity of this substance in detail.
At first, by various experimental methods, its effect on living things was observed. Looking at its effect on cells, it can be seen that it disturbs the growth and metabolism of cells. In animal experiments, the animals tested showed abnormal behavior and physiological disorders. This shows that it may be quite toxic.
And the chemical structure of this substance contains specific groups. According to chemical reasons, such structures are often related to toxicity. However, in order to determine the degree of toxicity and the mechanism of action, it is still necessary to search for extensive data and conduct in-depth studies. It is hoped that the nature of its toxicity can be detailed, which will help for future use and protection, so as to ensure the safety of people and things, and the well-being of the ecology.

Future Prospects

Guanfu 2,5-bis [ (1,3-dioxobutyl) amino] benzenesulfonic acid, although it has not been revealed to the world at present, my heart is looking forward to its future development. Today's technology is new, and research is gradually refined. This compound may have extraordinary uses. Or in the field of medicine, it can help heal diseases; or in the world of materials, it can create strange qualities. Although the road ahead is uncertain, with the heart of our generation's research and diligence, we will definitely be able to explore its profound meaning and develop its potential. I hope that in the future, we will see its brilliance, add a touch of brilliance to the world, benefit everyone, and become a great achievement of scientific research. This is my generation's eagerness for its future.

Frequently Asked Questions

What are the chemical properties of 2,5-bis [ (1,3-dioxybutyl) amino] benzenesulfonic acid

2% 2C5-bis [ (1,3-dioxyamyl) ethoxy] benzoic acid, this physical property is complicated, let me go into it in detail.
Looking at its structure, it is composed of the main chain of benzoic acid and the side chain of bis (1,3-dioxyamyl) ethoxy at the 2,5 position. This structure gives it unique physical and chemical properties.
First of all, physical properties, under room temperature, it is mostly in a solid state, but the specific melting point and boiling point vary according to purity and crystal form. Because the molecule contains polar carboxyl groups and ethoxy groups, it is slightly soluble in polar solvents, such as ethanol and acetone; in non-polar solvents, such as n-hexane and toluene, the solubility is poor.
Re-discussion of chemical properties, carboxyl groups are acidic, and can neutralize with bases to form corresponding carboxylic salts. In case of alcohols, under acid catalysis, esterification reactions can occur to form benzoate esters, which are very important in the field of organic synthesis and preparation of fragrances, plasticizers, etc. The 1,3-dioxane ring structure in the
molecule has certain stability, but it can also open the ring under specific conditions, such as strong acids or high temperatures. This structure can also participate in some condensation reactions for the construction of more complex organic molecules.
Due to its unique structure and properties, 2% 2C5-bis [ (1,3-dioxyamyl) ethoxy] benzoic acid is widely used in organic synthesis and materials science. In organic synthesis, it is used as a key intermediate for synthesizing compounds with special properties. In materials science, chemical modification is introduced into polymer systems to improve the solubility, thermal stability and processability of materials.

What are the main uses of 2,5-bis [ (1,3-dioxybutyl) amino] benzenesulfonic acid?

2% 2C5-bis [ (1,3-dioxyamyl) ethoxy] benzoic acid, which has a wide range of uses. In the field of medicine, it can be used as a key pharmaceutical intermediate. With its unique chemical structure, it can participate in many drug synthesis processes, help build molecular structures with specific pharmacological activities, and lay the foundation for the creation of new drugs.
In the field of materials science, it also has important value. It can be used to prepare special polymer materials, which can be connected to the main chain or side chain of the polymer through chemical reactions, giving the material unique properties such as good solubility, thermal stability and mechanical properties. For example, when manufacturing high-performance engineering plastics and functional membrane materials, adding this substance can optimize the comprehensive properties of the material and expand the application scenarios of the material.
In the field of organic synthesis, as a commonly used organic synthesis reagent, it can participate in a variety of organic reactions such as esterification reaction and condensation reaction. With its specific functional groups, it can accurately realize the construction and modification of organic molecules, providing an effective way for the synthesis of complex organic compounds, and helping organic synthesis chemists achieve diverse synthesis goals.
Furthermore, in the coatings and adhesives industry, it can also play a role. Added to coatings, it can improve the adhesion and chemical corrosion resistance of coatings; used in adhesives, it can enhance the bonding strength and durability of adhesives, thereby improving product quality and performance.

What is the synthesis method of 2,5-bis [ (1,3-dioxybutyl) amino] benzenesulfonic acid?

To prepare 2,5-bis [ (1,3-dioxyamyl) ethoxy] benzoic acid, the method is as follows:
First, take an appropriate amount of starting materials and convert them through multiple steps. The first step is to use a suitable substrate to interact ingeniously with a certain reagent under specific reaction conditions. This reaction requires precise temperature control to achieve the best reaction effect. The pH of the reaction environment is also crucial. When adjusted to a certain appropriate range, the reaction can proceed smoothly.
Next, the obtained intermediate product is separated and purified to remove impurities to ensure the purity of the product. Then, the intermediate product meets with other reagents and reacts again under another carefully prepared reaction condition. This reaction, or a catalyst, can increase the rate of the reaction and guide the reaction in the desired direction.
After several steps of conversion, each step needs to pay attention to the details of the reaction, such as the proportion of reactants and the length of the reaction time. The final product is 2,5-bis [ (1,3-dioxyamyl) ethoxy] benzoic acid. After each step of the reaction, the purity and structure of the product need to be carefully observed by suitable analytical methods, such as chromatography, to ensure that it is correct before proceeding to the next step. Such careful operation and repeated debugging can obtain this target product.

What is the market outlook for 2,5-bis [ (1,3-dioxybutyl) amino] benzenesulfonic acid?

From the perspective of 2,5-bis [ (1,3-dioxyamyl) ethoxy] benzoic acid, various factors need to be considered in the discussion of market prospects.
From the medical field, this compound may have a unique chemical structure and can be used as a key intermediate in drug synthesis. Because the pharmaceutical industry is constantly seeking new and effective drug ingredients, if its structure can endow the drug with specific pharmacological activity, such as affinity for specific disease targets, and regulation of physiological processes in organisms, it must have a place in the pharmaceutical raw material market. Today, the attack on difficult diseases is the most important development of the pharmaceutical industry. If this substance can be used as a basis to develop new drugs for symptoms, the demand may increase sharply.
As for the field of materials science, it may be used to prepare special polymer materials. With the advancement of science and technology, the demand for high-performance materials is increasing. If this benzoic acid derivative can participate in polymer polymerization and endow the material with excellent thermal stability, mechanical properties or special optical and electrical properties, it will be favored in the high-end material market. Such as electronic equipment, aerospace and other fields, which require strict material properties, if it can meet such needs, the market prospect will be broad.
Furthermore, in the fine chemical industry, it can be used as a special additive. Fine chemical products focus on the optimization of quality and function. If they can improve the color, stability or other physical and chemical properties of the product, they will become an indispensable ingredient in the production of coatings, inks, cosmetics and other products. Nowadays, consumers have higher quality requirements for fine chemical products, and things that can improve product quality will be welcomed by the industry.
However, its market expansion also faces challenges. The complexity of the synthesis process and the control of production costs are all related to its market competitiveness. If the synthesis steps are cumbersome, the yield is low, and the cost is high, its promotion will be limited. And the market acceptance of new compounds requires time and strict safety and effectiveness assessments before they can be recognized by the market.
Overall, if 2,5-bis [ (1,3-dioxyamyl) ethoxy] benzoic acid can solve the problem of synthesis and evaluation, it will have considerable market prospects in the fields of medicine, materials, and fine chemicals, and is expected to become a new driving force for the development of related industries.

What are the precautions for using 2,5-bis [ (1,3-dioxybutyl) amino] benzenesulfonic acid?

2% 2C5-bis [ (1,3-dioxyamyl) ethoxy] benzoic acid, when using, pay attention to many things.
First, this substance has a specific chemical activity, and must strictly follow the operating procedures when operating. Do not let the substance come into contact with strong oxidants, strong acids, strong bases, etc., to prevent violent chemical reactions and risk danger. For example, when preparing related preparations, if it is mistakenly mixed with contraindicated substances, it may cause fever, combustion or even explosion.
Second, this substance may be potentially harmful to the human body. During operation, be sure to take protective measures. Wear appropriate protective clothing, gloves, and protective eye masks and masks. Because it may cause irritation to the skin, eyes and respiratory tract. If it comes into contact with the skin accidentally, it should be rinsed with a lot of water immediately. If you feel unwell, seek medical treatment immediately; if it splashes into the eyes, you need to rinse with a lot of flowing water immediately and seek professional medical assistance as soon as possible.
Third, caution is also required in storage. It should be stored in a cool, dry and well-ventilated place, away from fire and heat sources. It needs to be sealed and stored to prevent it from reacting with moisture, oxygen, etc. in the air, affecting its quality and performance. And it should be stored separately from other chemicals to avoid confusion and misuse.
Fourth, the use environment is also particular. The operation site should have good ventilation conditions to disperse possible volatile gases, reduce the concentration of the substance in the air, and reduce the impact on the health of the operator. At the same time, the operation area should be equipped with corresponding emergency treatment equipment, such as fire extinguishers, eye washers, etc., for emergencies.
In short, the use of 2% 2C5-bis [ (1,3-dioxyamyl) ethoxy] benzoic acid requires careful attention in all aspects to ensure the safety of operation and the stability of material properties.