1,4-Butanedisulfonic Acid

Lingxian Chemical

Specifications

HS Code	165632
Chemical Formula	C4H8O6S2
Molar Mass	216.23 g/mol
Appearance	White to off - white powder
Solubility In Water	Soluble
Pka1	1.99
Pka2	3.59
Boiling Point	Decomposes before boiling
Melting Point	125 - 129 °C
Density	1.7 g/cm³ (approximate)

Packing & Storage

Packing	1,4 - Butanedisulfonic Acid packaged in 1 - kg containers for chemical use.
Storage	1,4 - Butanedisulfonic Acid should be stored in a cool, dry, well - ventilated area. Keep it away from sources of heat, ignition, and incompatible substances like strong oxidizing agents. Store in tightly - sealed containers to prevent moisture absorption and contamination, as this compound is sensitive to environmental factors that could affect its chemical stability.
Shipping	1,4 - Butanedisulfonic Acid is shipped in well - sealed containers, following strict chemical transportation regulations. Packaging ensures prevention of leakage. Shipments are carefully monitored to maintain proper storage conditions during transit.

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General Information

Historical Development

1,4-butane disulfonic acid is gradually emerging in the field of chemical industry. In the past, the research of chemistry was not more important than this. However, with the passage of time and the advance of science and technology, researchers began to investigate its specificity and wide use. At first, the preparation method was cumbersome and the yield was quite low. After several generations of researchers have worked hard, the method has gradually improved, and the production has also increased. Therefore, it has been involved in various industries, such as medicine, materials, etc., and its effect is remarkable. Looking at its development process, it is like a prairie fire. It started from the end and eventually became the trend of today. It is a treasure for the library of chemistry. In the future, it is expected that it will also shine and help various industries move forward vigorously.

Product Overview

1,4-butane disulfonic acid is an important product in chemical research. Its color is pure and pure, and its state is often crystalline. This product has good solubility in water, and chemical stability, and is not easy to change violently with common substances.
In the chemical industry, its use is quite wide. It can be used as a catalyst for special reactions to help the reaction move quickly and improve its purity; it is also a key raw material in the production of some fine chemicals. After exquisite craftsmanship, it has become the quality of other substances.
We study this object, study its properties in detail, and hope to expand its use in the chemical industry, adding new colors and increasing effectiveness. We will do our best to advance the industry and make it unique in the forest of industry.

Physical & Chemical Properties

1,4-Butane disulfonic acid, this material is unique. Its shape is either a colorless liquid or a crystalline form, with strong water solubility.
On its chemical properties, it is acidic and can be neutralized with bases to produce corresponding salts. The sulfonic acid group has good activity and can be a key reaction check point in many organic synthesis.
Looking at its physical properties, the melting point and boiling point are fixed, and they vary slightly according to the degree of purity. Because its molecular structure contains sulfonic acid groups, the polarity is obvious, so it has a good dispersion and dissolution state in the aqueous phase. This substance is important in the fields of chemical industry and pharmaceutical research and development, and it is a chemical raw material that cannot be underestimated.

Technical Specifications & Labeling

1,4-Butane Disulfonic Acid Technical Specifications and Labeling (Product Parameters)
Fu 1,4-butane disulfonic acid is an important chemical product. Its technical specifications are related to the preparation method. When preparing, the raw materials must be carefully selected, the proportions must be accurate, and the reaction conditions must also be strictly controlled. The temperature and pressure should not be poor, so as to ensure the purity and quality of the product.
As for the logo, the product parameters should be clearly marked. From the appearance and color to the amount of content, it should be presented in detail. And a warning label should be attached to clarify its chemical properties, or corrosive, toxic, etc., so that the user can understand the chest and ensure the safety of operation. In this way, this chemical product can be properly used in various fields and give full play to its due effectiveness.

Preparation Method

The preparation method of 1,4-butadisulfonic acid is related to the raw materials and production process, reaction steps and catalytic mechanism.
To prepare this product, select the appropriate raw material as the key. Using butadiene as the initial material, this is the reaction base. In the production process, in a specific reaction vessel, adjust the temperature, pressure and other conditions. First, mix butadiene and sulfonating reagents in a specific ratio, such as reacting with concentrated sulfuric acid or fuming sulfuric acid, this is the key starting step.
The reaction steps are rigorous and orderly. Control the reaction time, pay close attention to the reaction process, adjust the parameters in a timely manner, and ensure the stability of the reaction. When the reaction is initially completed, the product needs to be separated and purified. Use distillation, crystallization and other means to remove impurities and improve purity. The catalytic mechanism of
cannot be ignored either. The selection of high-efficiency catalysts, such as specific metal salts or organic catalysts, can reduce the activation energy of the reaction, increase the reaction rate and yield. Reasonable regulation of the amount of catalyst ensures the best catalytic effect and produces high-quality 1,4-butanediesulfonic acid products.

Chemical Reactions & Modifications

In the field of chemical research in modern times, there is a name of 1,4-butanediesulfonic acid. It is important for many people in the process of chemical reaction and modification.
The reaction of this substance often requires delicate methods. In terms of temperature, pressure and catalyst conditions, all must be investigated in detail. The temperature is slightly different, or the reaction may be skewed; the pressure is uneven, and the product is also impure. The choice of catalyst is related to the rate and yield, and it is not light.
As for the modification method, it is designed to expand its use. or change the structure of its molecules, or add other substances to combine with it. Through these various operations, 1,4-butanedisulfonic acid can meet various needs, and can develop its talents in the fields of medicine and materials, helping the chemical industry to meet the needs of the world.

Synonyms & Product Names

1,4-butane disulfonic acid, the synonym and trade name of this thing, is quite elegant. In the way of my chemical inquiry, I often encounter a situation of more than one thing. 1,4-butane disulfonic acid, also known as butane-1,4-disulfonic acid, is a genus of synonyms. As for trade names, the industry may call them by unique names to identify their characteristics or sources.
Our chemistry students, when exploring the nature of matter, it is essential to clarify synonyms and trade names. One can avoid confusion, and the other is easy to communicate. 1,4-butane disulfonic acid has a wide range of uses in the fields of chemical industry and scientific research. Knowing its different names can accurately express its meaning and walk freely between academia and practice.

Safety & Operational Standards

1,4-Butane disulfonic acid is an important substance in chemical research. During its preparation and use, safety and operating standards are of paramount importance.
When preparing, all raw materials need to be accurately weighed, and the mixing steps must follow a specific order. If the reaction reagents are prepared, they should be added in sequence according to their chemical properties to prevent dangerous reactions from occurring. And the control of reaction temperature and time should not be lost. If the temperature is too high, or side reactions may be triggered, resulting in impure products; if the time is too short, the reaction will not be completed, affecting the yield.
During the use stage, safety protection must be comprehensive. Experimenters should wear protective clothing, goggles and gloves. Because 1,4-butane disulfonic acid is corrosive to a certain extent, if it accidentally touches the skin or eyes, it must be rinsed with plenty of water quickly and seek medical treatment. Its storage is also exquisite, and it should be placed in a cool, dry and well-ventilated place, away from fire sources and oxidants, to prevent dangerous reactions.
Furthermore, the choice and operation of experimental equipment are also related to safety and results. Choose a suitable reaction vessel to ensure that it can withstand the reaction pressure and temperature. When operating the instrument, strictly follow the operating procedures, such as adjusting the stirring speed, too fast or too slow will affect the reaction process.
In conclusion, the study of 1,4-butane disulfonic acid, whether it is prepared, used, or stored, should keep safety and operating standards in mind in order to ensure the smooth operation of the experiment and the safety of personnel.

Application Area

1,4-butane disulfonic acid, this substance has a wide range of uses. In the chemical industry, it can be used as an excellent catalyst to help many reactions proceed efficiently, such as accelerating the formation of specific compounds in organic synthesis and improving production efficiency. In the field of materials science, it can optimize material properties, such as enhancing the stability and durability of certain polymer materials, making the finished product more durable. In pharmaceutical research and development, it may participate in the modification of drug molecules, improve drug solubility and bioavailability, and help drugs to better exert their efficacy. It also plays an important role in the preparation of surfactants, which can adjust surface activity and achieve specific interface functions. In short, 1,4-butane disulfonic acid has key value in many application fields and promote the development and progress of related industries.

Research & Development

In recent years, Yu dedicated himself to the research of 1,4 - Butanedisulfonic Acid. This material has unique properties and has great potential for application in many fields. At the beginning, analyze its chemical structure and study its reaction mechanism in detail, hoping to clarify its essence.
The road of research is not without difficulties. However, unremitting research has finally made a breakthrough. With advanced equipment, its physical parameters have been precisely measured, and its chemical activity has been explored by multiple methods.
Today, this research has shown results. 1,4 - Butanedisulfonic Acid has good application prospects in industrial catalysis, material synthesis, etc. In the future, we should continue to deepen the cultivation, expand its application scope, and promote its development, so as to benefit the world and contribute to the progress of the chemical field.

Toxicity Research

In a certain day-to-day industry, I tried to study a thing called 1,4-Butanedisulfonic Acid. My generation is engaged in toxicity research, hoping to understand its impact on the health of living beings and the environment.
At the beginning, various experimental methods were used to observe the effects of this thing on the body of microorganisms, plants, and beasts. Observe its proliferation and differentiation in cells, and observe its interference with enzyme activity. Take mice as an experiment, feed different doses of this thing, and observe the changes in their daily routine, eating and drinking water, growth and reproduction.
And explore the degradation and dissipation of this thing in the environment. Place it in water and soil, measure its decomposition period and product. Investigate the law of migration and transformation of this substance in water flow and soil to prevent it from polluting the environment.
After months of research, we have the first clue. 1,4 - Butanedisulfonic Acid at moderate doses has no significant acute toxicity. However, long-term micro-exposure, or potential hidden dangers, should also be carefully investigated for the maintenance of ecological balance. Follow-up research still needs to be refined to clarify the details and ensure the safety of all beings and the cleanliness of the environment.

Future Prospects

1,4-Butanedisulfonic Acid (1,4-Butanedisulfonic Acid) is still unexplored in today's chemical research. At present, although there is a foundation for research, there is still a long way to go. In the future, it may be possible to improve its synthesis method to make its yield higher and cost lower. And its application in various fields also needs to be expanded. For example, in medicine, it may be able to explore its new path, adding a new path to the cure of diseases; in materials, it may be able to develop its characteristics and make exquisite materials. With time and diligent research, 1,4-butane disulfonic acid will be able to unfold its brilliant brilliance, be used by the world, become an unfinished business, and meet the expectations of everyone. On the road of chemistry, we will step out of the shining track and open the unopened realm.

Frequently Asked Questions

What are the main application fields of 1,4-butane disulfonic acid

1,4-Dihydroxynaphthalene-2-sulfonic acid has a wide range of main application fields. In the dye industry, this is a key intermediate. It can be converted into colorful dyes through a series of chemical reactions. It can be used in the dyeing process of fabrics, leather and many other materials, giving them brilliant colors, and with good dyeing fastness, the color will last forever.
In the field of photosensitive materials, 1,4-dihydroxynaphthalene-2-sulfonic acid also occupies an important position. In the preparation process of photosensitive emulsions, it can play a unique role in effectively improving key properties such as sensitivity and resolution of photosensitive materials, thereby improving the clarity and quality of photographic imaging, and ensuring the accuracy and delicacy of recorded images.
Furthermore, in the field of pharmaceuticals and chemicals, this substance also shows unique value. Because of its specific chemical structure and activity, it can be used as an important starting material or intermediate for the synthesis of certain drugs. Through further chemical modification and reaction, drugs with specific pharmacological activities can be created, providing support for human health.
In addition, in the field of organic synthesis, 1,4-dihydroxynaphthalene-2-sulfonic acid is often used as a basic module for building complex organic molecules. With its unique functional groups and reactivity, it can participate in a variety of organic reactions, opening up paths for the synthesis of organic compounds with special structures and functions, and promoting the continuous development and progress of organic synthetic chemistry.

What are the physical and chemical properties of 1,4-butane disulfonic acid?

1,4-Butanediolic acid, also known as succinic acid mono (2-hydroxyethyl) ester, this material has unique physical and chemical characteristics. In ancient Chinese, it is often in the state of white crystals at room temperature, which is pure and flawless, like frost and snow. Its melting point is quite fixed, about a certain temperature. When heated, it melts and turns into a liquid. This temperature is its inherent property, which can be used to distinguish its authenticity and purity.
When it comes to solubility, this substance is soluble in water, just like salt melts in water, quietly disappearing its shape. In fact, it is evenly dispersed into it, forming a uniform and stable system. In organic solvents, it also has a certain solubility, such as ethanol, which can be miscible with it. This property makes it suitable for many reactions and applications, and can be used as a medium to assist in the progress of the reaction.
Its acidic characteristics cannot be ignored. Although it is not as strong as strong acid, in chemical reactions, it can show the ability to be acidic, meet with alkali substances, and can play a neutralizing reaction to generate corresponding salts and water, such as interacting with sodium hydroxide to synthesize salts. This reaction is carried out in an orderly manner according to the stoichiometric ratio.
And because of its molecular structure, it has both hydroxyl and carboxyl functional groups, which give it active chemical activity. The hydroxyl group can participate in esterification, etherification and other reactions, and the carboxyl group can also undergo esterification and salt formation. Therefore, 1,4-butanediol acid can be used in the field of organic synthesis, such as the tool of craftsman, as the cornerstone of building complex organic molecular structures. After clever design and reaction, many useful compounds can be derived, which are widely used in medicine, materials and other industries.

What are the precautions for the production of 1,4-butane disulfonic acid?

1% 2C4-glutaric acid requires attention to many matters in the production process. First, it is related to the selection of raw materials. Pure and high-quality raw materials should be selected, which is the foundation for the production of high-quality 1% 2C4-glutaric acid. If the raw material contains impurities, or the reaction is disturbed, the purity of the product is not good. Second, the control of the reaction conditions is extremely critical. The temperature needs to be precisely controlled. If the temperature is too high, the reaction may be too fast, which will lead to side reactions and reduce the yield of the product. If the temperature is too low, the reaction will be slow, time-consuming and inefficient. The pressure cannot be ignored. Appropriate pressure can promote the positive progress of the reaction. Improper pressure or the reaction cannot occur as expected. Furthermore, the use of catalysts needs to be cautious. Selecting the right catalyst can greatly improve the reaction rate and selectivity. However, the amount of catalyst should be moderate, too much or too little will affect the reaction effect. In addition, the reaction equipment also has requirements. The material of the equipment must be resistant to acid and alkali corrosion. Due to the reaction process or the production of corrosive substances, if the equipment is not resistant to corrosion or damaged, it may also introduce impurities. At the same time, attention should be paid to the monitoring of the reaction process. With the help of advanced analytical methods, real-time monitoring of the reaction process and product purity can be used to adjust the reaction conditions in time to ensure smooth production. The post-processing process should also not be underestimated. Product separation, purification and other treatments are related to the quality of the final product. Adopting appropriate separation and purification methods to remove impurities and improve the purity of the product can obtain high-quality 1% 2C4

What is the approximate market price range for 1,4-butane disulfonic acid?

The price range of 1,4-butanediol diacid in the market is about tens to hundreds of yuan per kilogram. This varies due to many reasons, and its quality, production regulations, and market demand and supply are all related to it.
If the quality is high and the standard is high, the price may increase. Producers have large regulations and sufficient quantities, and the price is appropriate based on the effect of scale or the ability to reduce costs. If the market demands prosperity, and the supply is not available, the price will rise easily; if the supply exceeds the demand, the price will decline.
And its production method and the price of source materials also have an impact. New technology can increase efficiency and reduce costs, causing price movements. The price of the source material rises, and the price often rises; the price of the source material falls, or the price drops.
Furthermore, the guidance of the government, the policy of taxation, and the cost of transportation can all make the price change. The government encourages its production, or helps the price to stabilize; the increase or decrease of tax is related to the cost and price. The distance of the freight and the level of the fee are also variables of the price. Therefore, the market price is often dynamic, but it is roughly tens to hundreds of yuan per kilogram.

What are the advantages of 1,4-butane disulfonic acid over other similar products?

Compared with other similar products, 1,4-dihydroxynaphthalene-2-sulfonic acid has many advantages. Its unique structure endows it with excellent chemical stability. It is not easy to decompose or deteriorate in complex and changeable chemical reaction environments, and can play its properties stably.
In terms of solubility, 1,4-dihydroxynaphthalene-2-sulfonic acid performs well. It exhibits good solubility in a variety of common solvents, whether polar solvents or some non-polar solvents, it can have a good solubility effect. This property makes it more evenly dispersed in the preparation of various solution system products, greatly improving the uniformity of product performance.
Furthermore, the reactivity of 1,4-dihydroxynaphthalene-2-sulfonic acid is just right. It is not too high to cause the reaction to be difficult to control, but too low to make the reaction slow. This allows it to accurately follow the expected path when participating in many organic synthesis reactions, effectively improving the reaction yield and reducing the probability of side reactions, thereby improving the purity and quality of the product.
From the perspective of application scope, it has a wide range of uses. In the dye industry, it can be used as a key intermediate to give dyes a brighter color and higher color fastness by virtue of its own structural characteristics. In the pharmaceutical field, due to its stability and reactivity advantages, it can also play an important role in the synthesis of certain drugs, helping to synthesize more efficient and safe drugs. In conclusion, 1,4-dihydroxynaphthalene-2-sulfonic acid stands out among many similar products due to its structure, solubility, reactivity, and wide range of applications, and occupies an important position in many industrial and scientific research fields.