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

Lingxian Chemical

Specifications

HS Code	110980
Chemical Formula	C16H16N2O8S
Molar Mass	412.37 g/mol
Appearance	Solid (presumably, based on similar compounds)
Solubility In Water	Limited solubility (guess based on the presence of non - polar benzene ring and polar groups)
Solubility In Organic Solvents	May be soluble in some polar organic solvents like DMSO due to polar functional groups
Acidity	Weakly acidic due to the sulfonic acid group
Stability	Stable under normal conditions but may react with strong bases, oxidizing agents etc.
Reactivity	Can react with amines, alcohols in the presence of appropriate catalysts due to the reactivity of carbonyl groups in the dioxobutyl moieties

Packing & Storage

Packing	500g of 2,5 - Bis[(1,3 - dioxobutyl)amino]benzenesulfonic acid in sealed chemical - grade bags.
Storage	Store "Benzenesulfonic Acid, 2,5 - Bis[(1,3 - Dioxobutyl)Amino] -" in a cool, dry, well - ventilated area, away from heat and ignition sources. Keep it in a tightly closed container, preferably made of corrosion - resistant materials due to its acidic nature. Avoid storage near reactive chemicals to prevent potential reactions and ensure safety.
Shipping	For shipping "Benzenesulfonic Acid, 2,5 - Bis[(1,3 - Dioxobutyl)Amino] -", it must be carefully packaged in accordance with chemical transport regulations. Use proper containers to prevent leakage during secure transit, likely via specialized chemical - approved carriers.

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

General Information

Historical Development

Regarding the history of 2,5-bis [ (1,3-dioxobutyl) amino] benzenesulfonic acid
Fu 2,5-bis [ (1,3-dioxobutyl) amino] benzenesulfonic acid, its importance in the field of chemical industry has gradually become apparent. At the beginning, the academic community was still shallow in its understanding, only a little understanding of its basic properties.
At that time, researchers were mostly devoted to basic analysis, exploring its structure and properties, but progress was rather slow. After the passage of time, science and technology advanced day by day, and various analytical methods and synthesis techniques became increasingly sophisticated.
Researchers can then use better methods to make this sulfonic acid. Its application has also gradually expanded to various fields, such as printing and dyeing, medicine, etc. Those who were difficult to use in the past can now do good things by virtue of their nature. From the initial ignorance to the current familiarity, the development of this sulfonic acid depends on the diligence of researchers of various generations to write this wonderful chapter in the history of chemical industry.

Product Overview

"Product Overview of Benzenesulfonic Acid, 2,5-bis [ (1,3-dioxobutyl) amino] -"
There is now a product called benzenesulfonic acid, 2,5-bis [ (1,3-dioxobutyl) amino] -. This product has a unique structure and contains benzenesulfonic acid radical, and is connected with bis [ (1,3-dioxobutyl) amino] groups at positions 2 and 5. Its properties are also characteristic, or due to the interaction of multiple groups in the structure, it presents specific physical and chemical properties. In the chemical industry, or because of its special structure, it can be used as a raw material for specific reactions, or it can play a key role in the preparation of some fine chemical products. Although it is only described in about 200 words, its value in chemical research and industrial applications cannot be underestimated, and researchers need to explore it in depth to understand its more functions and mysteries.

Physical & Chemical Properties

Physical Explanation
There is a thing today called "Benzenesulfonic Acid, 2,5 - Bis [ (1,3 - Dioxobutyl) Amino] -". Looking at its physical properties, this substance must have its own unique characteristics.
In terms of shape, it may be crystalline, crystal clear and regular, like a treasure made in heaven. Its color, or pure color, white like snow, or slightly dyed with light color, adds a unique charm.
As for the texture, it may be firm and crisp, and you can smell the crisp sound when you touch it; or it may have a certain flexibility, such as smart strands.
When it comes to solubility, in some solvents, it may be able to quietly melt into the invisible, just like a fish entering water, natural and harmonious; in other solvents, it is rejected and not accepted, and it is distinct.
Its chemical properties, presumably active or stable, are closely related to the structure. The stability of the benzene ring, the characteristics of the sulfonic acid group, and the interaction of the linked groups must deduce a rich chemical reaction.
The exploration of the physical and chemical properties of this substance is like opening an unknown secret door, waiting for us to explore it in depth to see the mystery.

Technical Specifications & Labeling

Benzenesulfonic Acid, 2,5 - Bis [ (1,3 - Dioxobutyl) Amino] - This compound is related to many aspects in terms of process specifications and identification (product parameters). Its preparation method requires strict procedures. The ratio of materials and the temperature of the reaction are all fixed. If the material is added, it should be ordered in sequence to ensure a smooth reaction. The temperature control of the reaction kettle must also be precise. If it is too high, it will respond to the side, and if it is too low, the rate will be slow.
As for the label, the product characteristics should be specified in detail. The content of ingredients is clear at a glance, so that the user knows its quality. Hazard warnings are also indispensable to inform the need for prevention. In this way, the correct path of fanghe process specification and identification is the foundation for steady progress in the chemical industry.

Preparation Method

The method of preparing 2,5-bis [ (1,3-dioxobutyl) amino] benzenesulfonic acid is related to the raw materials, production process, reaction steps and catalytic mechanism. First, take an appropriate amount of benzenesulfonic acid as the starting material, put it in a special kettle, add an appropriate amount of 1,3-dioxobutyl amine, and control the temperature in a suitable range, such as 60 to 80 degrees Celsius, which is the key to the reaction. In the meantime, a specific catalyst, such as a metal salt, is used to accelerate the reaction process and improve the yield. After the reaction is completed, the pure 2,5-bis [ (1,3-dioxobutyl) amino] benzenesulfonic acid product is obtained through cooling, separation and purification steps. Each step needs to be precisely controlled. The quantity of raw materials, reaction time, and temperature are all related to the quality and quantity of the product. This method has been optimized through repeated experiments, with the aim of obtaining high-quality products in an efficient and stable state.

Chemical Reactions & Modifications

A new agent called 2,5-bis [ (1,3-dioxobutyl) amino] benzenesulfonic acid, its reaction and modification in the chemical, is the focus of our research.
Looking at its chemical reaction, this agent can play a delicate combination with various substances under specific temperature, pressure and catalyst conditions, such as with alcohols, often different esters. The speed and rate of this reaction are related to various elements. If the temperature is high, it should be sick, but if it is too high, it will be disproportionated; if the amount of catalyst is appropriate, it can promote the adaptation, and if it is less, it will be weak, and if it is more, it will cause chaos.
As for modification, adding a specific base can transform its properties. The base of hydrophilicity can improve its solubility in water; the group of stability can strengthen its stability. After such modification, this agent can be used in daily products and industrial fields to develop its growth and help the industry.

Synonyms & Product Names

A chemical substance is called Benzenesulfonic Acid, 2,5 - Bis [ (1,3 - Dioxobutyl) Amino] -, which is a scientific name. However, there are also many synonymous names and commodity names in the world.
In the past, when people searched for this object, they were called by different names because of its unique nature and different uses. Or because of its special structure, it was different from other things, so they got synonymous names to express their characteristics. As for the name of the commodity, the merchant gave it a unique title according to its characteristics and functions for ease of circulation and identification.
Nowadays, as chemical researchers, we should carefully investigate the many terms of this object, identify its similarities and differences, and help academic communication and practical application. In this way, we can be more rational in the field of chemistry, make good use of this object, and contribute to the advancement of academia and the prosperity of skills.

Safety & Operational Standards

Specifications for the safety and operation of 2,5-bis [ (1,3-dioxybutyl) amino] benzenesulfonic acid
Research on chemical substances, safety and operation standards are of paramount importance. When discussing 2,5-bis [ (1,3-dioxybutyl) amino] benzenesulfonic acid, it is necessary to study its specifications in detail to ensure that everything goes smoothly.
#1. Storage
This substance should be placed in a cool, dry and well ventilated place. Keep away from fire and heat sources to prevent accidents. If stored in an inappropriate place, such as a humid place or near a fire, it may deteriorate and even cause danger. And should be stored separately from oxidants, acids, alkalis, etc., must not be mixed storage, due to the interaction of different chemical substances, or violent reactions, endangering safety.
#2. Rules of operation
When operating, be careful. The operator needs to wear appropriate protective clothing, such as protective clothing, protective gloves, to avoid skin contact with it. And when wearing protective glasses, protect the eyes from damage. The operating environment should be well ventilated to prevent the accumulation of harmful gases. When taking the substance, the action should be slow to avoid dust, if the powder is raised, inhalation of human body, or damage to health.
#3. Emergency measures
If you accidentally come into contact with the skin, you should immediately rinse with a large amount of water and then seek medical treatment. If you splash into your eyes, you need to rinse with flowing water or normal saline immediately, and you should not forget to seek medical treatment. In the event of a fire, you should use a suitable fire extinguishing agent to put it out, such as dry powder fire extinguishers, carbon dioxide fire extinguishers, etc., and you must not act blindly.
In short, the safety and operation specifications of 2,5-bis [ (1,3-dioxybutyl) amino] benzenesulfonic acid should be kept in mind and should not be slack. In this way, you can travel steadily and far in the road of chemical research, without danger.

Application Area

One evening, I spent more time in my study researching chemical products, called Benzenesulfonic Acid, 2,5 - Bis [ (1,3 - Dioxobutyl) Amino] -. This material is special, and I thought about its use, tossing and turning.
The next day, I observed its structure, just like the stars are arranged, and it is well organized. Suddenly realizing it in the industry of dyeing and weaving, it may be of great use. This substance is stable and bright, and can be used as a dye to make the fabric look like a glow, and it will not fade for a long time.
It is also possible to see it in the field of medical research after re-examination. Its molecular wonders may assist in the research of new drugs and treat human diseases. Although it is not fully understood, the dawn has already appeared.
Also think of the genus of paint, based on this, or can make a good paint, strong and beautiful, and difficult to corrode in the wind and rain.
I feel that this thing is widely used, and with time and detailed study, it will be able to shine in all industries and benefit everyone.

Research & Development

In a certain daily chemical industry, he devoted himself to exploring new substances, called "Benzenesulfonic Acid, 2,5 - Bis [ (1,3 - Dioxobutyl) Amino] -". At the beginning, in the search of ancient books, the predecessors had not been involved in this field, so they decided to explore new paths.
Begin to explore its structure. With precise tools, analyze its molecular structure, distinguish the order and bond of atoms. Also observe its properties, observe the state of dissolution in various solvents, measure the temperature and speed of the reaction, and clarify its chemical activity.
Develop a method to adjust the ratio of raw materials and control the conditions of the reaction. After repeated attempts, optimize the process, yield and purity.
Looking to the future, I hope this product can be used for beauty, moisturizing the skin, cleaning the hair; or entering the industry as a catalyst and solubilizer. It is hoped that this product will contribute to the progress of chemistry and the good of people's livelihood, and develop infinite possibilities.

Toxicity Research

Yu Taste is dedicated to the study of poisons, and recently focused on the toxicity of "Benzenesulfonic Acid, 2,5-Bis [ (1,3-Dioxobutyl) Amino] -". The nature of covering poisons is related to the health of people's livelihood and cannot be ignored.
This substance has a unique structure, contains special groups, or is toxic and complex. I have searched ancient books to analyze the structure of its molecules in detail and explore the mechanism of its interaction with biomolecules. Using ancient methods of poison detection, supplemented by modern instrument analysis, we hope to be able to clarify the strength of its toxicity and the target of its action.
After years of research, although it has not achieved full success, it has already seen the way. We are well aware that the road to toxicity research is long, and we need to persevere and act cautiously in order to identify the hazards of this substance for the world and ensure the well-being of everyone.

Future Prospects

Looking at the current chemical research, Benzenesulfonic Acid, 2,5 - Bis [ (1,3 - Dioxobutyl) Amino] - this product still has a lot to do. However, the prospect of its future is really exciting.
This substance has a unique chemical structure, or it has great potential in the fields of materials science, biomedicine, etc. In materials science, it may be able to create new materials with excellent performance based on its characteristics, bringing innovation to the construction, electronics and other industries. In biomedicine, it is expected that in-depth research will be conducted to explore its pharmacological activity, develop new drugs, and benefit human health.
Although the road ahead is long, we chemical researchers should move forward with enthusiasm. With unremitting research, explore its mysteries, and hope to uncover more of its veil in the future, so that this material can contribute to the progress of human society, achieve a brilliant career, and live up to the prospect of the future.

Frequently Asked Questions

What is the main use of this 2,5-bis [ (1,3-dioxybutyl) amino] benzenesulfonic acid product?

The product of 2,5-bis [ (1,3-dioxyamyl) ethoxy] benzoic acid is an important compound in the field of fine chemicals. Its main uses cover a wide range, and it can be used as a key intermediate in the field of medicinal chemistry. With its unique molecular structure, it can participate in many drug synthesis reactions, assist in the development of new drugs with specific curative effects, and play a key role in the treatment of diseases.
In the field of materials science, it also has outstanding performance. It can be used to prepare polymer materials with special properties, such as optimizing the solubility, stability, and thermal properties of materials. By introducing this compound, polymer materials can better meet the needs of specific scenarios, such as in the field of electronic materials, to improve the electrical properties of materials, thereby promoting the performance of electronic devices.
In addition, in the field of organic synthetic chemistry, as an important starting material or intermediate, it can derive a series of organic compounds with different structures, enrich the variety of organic compounds, provide more possibilities and choices for the development of organic synthetic chemistry, greatly expand the boundaries of organic synthesis, and help researchers explore more novel and unique organic compound structures and properties.

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

2% 2C5-bis [ (1,3-dioxyamyl) ethoxy] benzoic acid requires attention to many matters during production.
First, the selection and control of raw materials is extremely critical. The purity and quality of raw materials are directly related to the quality of products. High-purity raw materials must be selected and tested in detail before being put into production to prevent impurities from mixing in, resulting in poor product purity and affecting subsequent applications.
Second, the reaction conditions must be precisely controlled. Factors such as temperature, pressure, and reaction time have a significant impact on the reaction process and product yield. If the temperature is too high, or the reaction is too violent, it will trigger side reactions and reduce the purity of the product; if the temperature is too low, the reaction rate will be slow and take a long time. Therefore, it needs to be tested repeatedly to find the best reaction conditions, and in the production process, with precision instruments, strict control to ensure that the reaction is stable.
Third, safety protection must not be ignored. The production process of this compound may involve toxic, harmful, flammable and explosive chemicals. Operators must strictly follow safety regulations, Peqi protective equipment, such as protective clothing, gloves, goggles, etc. At the same time, the production site should be equipped with perfect ventilation, fire protection and emergency treatment facilities to prevent accidents.
Fourth, the maintenance and cleaning of equipment is also a priority. The performance of production equipment affects production efficiency and product quality. Regular maintenance of equipment, timely troubleshooting and repair of hidden faults. Every time the production is completed, thoroughly clean the equipment to prevent material residues and interfere with the next production.
Fifth, quality inspection runs through the whole process. In all aspects of production, strict testing is required to ensure that the product meets Quality Standards. It is not only necessary to test the purity and content of the product, but also pay attention to its physical and chemical properties and other indicators. Only products that have passed comprehensive and strict testing can enter the market.

How stable are 2,5-bis [ (1,3-dioxybutyl) amino] benzenesulfonic acid products?

The stability of the product of 2% 2C5-bis [ (1,3-dioxyamyl) ethoxy] benzoic acid is related to many aspects. In its chemical structure, 1,3-dioxyamyl is related to ethoxy and benzoic acid structural units, and this specific structure endows the product with specific stability.
From the perspective of chemical principles, in 1,3-dioxyamyl, the oxygen atom forms a stable bond with the central carbon atom, and its spatial structure and electron cloud distribution make the group shield the ethoxy group and benzoic acid part connected to it to a certain extent, reducing the interference of external factors. The presence of ethoxy groups, due to the shift of the bond energy of the carbon-oxygen bond in the ethoxy group and the electron cloud, affects the distribution of the carboxyl group of benzoic acid and the electron cloud of the whole molecule, moderately adjusts the molecular polarity and charge distribution, and enhances the molecular stability.
However, external conditions also play a significant role in its stability. When the temperature increases, the thermal motion of the molecule intensifies, and the intermolecular interaction enhances, which may lead to the fracture or rearrangement of the bonds in the weaker parts of the molecular bond energy, which in turn affects the stability of the product. Under humid conditions, water molecules can bind to the product molecules through hydrogen bonds or other weak interactions, changing the intermolecular forces, and even triggering hydrolysis reactions. If some bonds in the product molecules are easily broken under the attack of water molecules, the stability will
The light factor cannot be ignored. Light of a specific wavelength has energy, which can be absorbed by the product molecule, excite the electron transition in the molecule, and make the molecule in a high-energy excited state. The molecular activity of the excited state is enhanced, and it is prone to chemical reactions, resulting in structural changes of the product and damage to its stability.
Furthermore, the pH environment has a significant impact. In acidic or alkaline media, the carboxyl group of benzoic acid can undergo protonation or deprotonation reactions, changing the molecular charge state and electron cloud distribution, and changing the molecular stability. Under alkaline conditions, ethoxy or 1,3-dioxyamyl groups may undergo hydrolysis and other reactions, which seriously affect the stability of the product.
In summary, the stability of 2% 2C5-bis [ (1,3-dioxyamyl) ethoxy] benzoic acid products is influenced by various factors such as its own structure and external temperature, humidity, light, pH, etc. To maintain its stability, the above factors need to be comprehensively considered and controlled.

How is 2,5-bis [ (1,3-dioxybutyl) amino] benzenesulfonic acid compatible with other substances?

2% 2C5-bis [ (1,3-dioxyamyl) ethoxy] benzoic acid, this physical property is special, and its compatibility with other substances is related to various uses and cannot be ignored.
The compatibility of this substance first involves one end of the chemical structure. In its molecular structure, the part of 2,5-bis [ (1,3-dioxyamyl) ethoxy] has a specific electron cloud distribution and spatial hindrance. When encountering compounds containing active hydrogen, such as alcohols and amines, it may react chemically. Due to its relatively stable structure of dioxyamyl ring, the oxygen atom of the ethoxy group has lone pairs of electrons, or forms hydrogen bonds with active hydrogen, or causes nucleophilic substitution reactions, resulting in system instability.
Solvent compatibility is also critical. In polar solvents, such as methanol and ethanol, there may be a certain solubility due to the principle of similar miscibility. However, in non-polar solvents, such as n-hexane and benzene, because their molecules have a certain polarity, they may be difficult to dissolve. If the solution system is prepared, improper solvent selection may cause precipitation, bad reaction process or material properties.
Compatibility with polymers is very important in the field of materials. When adding polymer matrices, such as common polyethylene and polypropylene, it is necessary to consider the interaction between the two. If the interaction is weak, it is easy to cause phase separation and material properties are deteriorated, such as reduced mechanical properties and poor appearance. If it can be well compatible with hydrogen bonds, van der Waals forces, etc., the comprehensive properties of the material can be improved, such as toughness and processability.
In practical applications, the compatibility with additives cannot be ignored. Additives such as antioxidants and light stabilizers, if they are incompatible with them, may reduce their efficacy or cause side reactions. For example, the functional groups of some antioxidants react with 2,5-bis [ (1,3-dioxyamyl) ethoxy] benzoic acid to inactivate the antioxidant and reduce the service life of the material.
To ensure its compatibility with other substances, experimental investigation is essential. By means of solubility test, thermal analysis, spectral analysis, etc., the physical and chemical changes when mixed with different substances are revealed, which provides a solid basis for practical application and avoids various problems caused by poor compatibility.

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

In today's world, 2,5-bis [ (1,3-dioxyamyl) ethoxy] benzoic acid is worth exploring in the market prospect.
In the field of Guanfu Chemical, this product has its unique use. It is used in the synthesis of medicine, or can be a key intermediate. Today's rapid development of medicine, new prescriptions and new drugs are emerging, and there is a growing demand for various intermediates. If 2,5-bis [ (1,3-dioxyamyl) ethoxy] benzoic acid has its advantages in pharmacological action and synthesis convenience, it will be able to occupy a place in the pharmaceutical market and be favored by many pharmaceutical companies.
Let's talk about the field of materials again. Today's materials need to be innovative and unique, and their performance needs to be exceptional. This benzoic acid substance, or due to its special molecular structure, imparts different properties to the material, such as improving the stability of the material and enhancing its compatibility with other substances. If so, in the R & D and production of new materials, its demand should not be underestimated.
However, its prospects are not completely smooth. The market competition is intense, such as sailing against the current. Similar substitutes may emerge in an endless stream. If this product does not have significant advantages, it may be eliminated from the market. Furthermore, the system of regulations and the pursuit of environmental protection are all considerations. If the production process does not meet the standards of current regulations and environmental protection, even if it has good quality, it will be difficult to enter the market.
To sum up, the market prospect of 2,5-bis [ (1,3-dioxyamyl) ethoxy] benzoic acid, opportunities and challenges coexist. If we can make good use of R & D, highlight our advantages, meet the needs of the market, and comply with regulations, the future is promising, and it is expected to develop its strengths and prosper in the fields of chemical industry, medicine, and materials.