1,3,6-Naphthalene Trisulfonic Acid Trisodium Salt

Lingxian Chemical

Specifications

HS Code	948012
Chemical Formula	C10H5Na3O9S3
Molecular Weight	420.25 g/mol
Appearance	white to off - white powder
Solubility	Soluble in water
Ph Aqueous Solution	Around 7 - 9
Cas Number	5808 - 19 - 5
Density	N/A (powder, no defined density in typical sense)
Melting Point	N/A (decomposes before melting)
Stability	Stable under normal conditions
Odor	Odorless

Packing & Storage

Packing	25 - kg sacks used to package 1,3,6 - Naphthalene Trisulfonic Acid Trisodium Salt.
Storage	Store 1,3,6 - Naphthalene Trisulfonic Acid Trisodium Salt in a cool, dry place away from direct sunlight and sources of heat. Keep the container tightly closed to prevent moisture absorption. Store it separately from oxidizing agents and incompatible substances to avoid potential reaction risks. If possible, use a dedicated storage area with proper ventilation.
Shipping	1,3,6 - Naphthalene trisulfonic acid trisodium salt, a chemical compound, is shipped in well - sealed containers, following strict safety regulations for chemicals to prevent spillage and ensure safe transport.

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1,3,6-Naphthalene Trisulfonic Acid Trisodium Salt

General Information

Historical Development

1,3,6-Naphthalene trisulfonic acid trisodium salt, the origin of this substance can be traced back to the past. At the beginning, in the process of chemical exploration, researchers paid attention to this unique compound. Its discovery, like a spark in the dark night, added a touch of light to the field of chemistry.
In the early days, its understanding was still shallow, and only some of its properties were known. However, with the passage of time, various experiments were carried out, and scholars worked tirelessly. From simple instruments to fine instruments, the exploration was deepened step by step.
In the past few years, people have gained a lot from the study of its structure and characteristics. The synthesis method has also been continuously improved, from the initial complexity, it has gradually become simple and efficient. Nowadays, trisodium 1,3,6-naphthalene trisulfonate has emerged in many fields, which is an important achievement in the development of chemistry. Future exploration is expected to take it to a higher level.

Product Overview

The trisodium salt of 1,3,6-naphthalene trisulfonate is a chemical substance. It has the characteristics of sulfonic acid group, is soluble in water, and is ionic. This product has a wide range of uses. In the dyeing and weaving industry, it can be used as a dye aid to help dye level and solubilize, so that the color of the fabric is uniform and bright. In the paper industry, it can improve the properties of paper, improve the strength and smoothness.
The preparation method is to sulfonate naphthalene, treat it with sulfuric acid and other sulfonating agents, control the reaction conditions, and introduce sulfonic acid groups into the naphthalene molecule at specific positions, and then neutralize it into sodium salts. Preparation requires precise control of temperature, time, and the proportion of reactants to obtain high-purity products.
This product is important for industrial use, but it is Proper disposal of production waste to avoid environmental pollution and ecological hazards. In this way, the balance between chemical production and environmental protection can be achieved.

Physical & Chemical Properties

The physical state of the trisodium salt of 1,3,6-naphthalene trisulfonic acid is also a white to slightly yellow crystalline powder at room temperature, which is highly soluble in water, which is one end of its physical properties. Its chemical properties have the characteristics of sulfonic acid groups, which are acidic and can neutralize and react with alkali substances to form corresponding salts. And because its molecular structure contains naphthalene rings, it has certain stability and conjugation effect. In the field of organic synthesis, it can be used as an intermediate and participate in the construction of many complex compounds. And in the dye industry, because of its good water solubility and chemical activity, it can help dyes better adhere to fabrics and improve dyeing effects. It is also an important raw material for chemical industry.

Technical Specifications & Labeling

1,3,6 -Naphthalene trisulfonic acid trisodium salt, this is an important chemical product. Its process specifications and standards (commodity parameters) are related to the quality of the product.
To make this product, the selection of raw materials should bear the brunt, and it needs to be pure and flawless to ensure a smooth reaction. During the reaction, temperature, pressure, duration, etc. need to be precisely controlled. If the temperature is too high, or side reactions will occur; if it is too low, the reaction will be slow. Stable pressure is also the key, which is related to the reaction process. The appropriate time can make the reaction sufficient.
The product is made, and testing is indispensable. Looking at its color and shape, it should conform to the standard state. Measure its purity, when it reaches a specific value. The impurity content must be strictly controlled at a low limit. In this way, high-quality 1,3,6-naphthalene trisulfonic acid trisodium salt can be obtained to meet the needs of all parties.

Preparation Method

The method of making trisodium salt of 1,3,6-naphthalene trisulfonic acid is related to raw materials and production process, reaction steps and catalytic mechanism. First take naphthalene as raw material and sulfonate it with concentrated sulfuric acid. During sulfonation, temperature control and reaction time are essential. Appropriate temperature and time are required to obtain the best yield.
At the beginning of the reaction step, naphthalene is mixed with concentrated sulfuric acid and slowly heated to allow it to fully react. During this period, closely observe the temperature and reaction process. After the reaction is completed, the product needs to be treated. Or neutralize, separate and purify to make the product pure.
As for the catalytic mechanism, or use a catalyst to promote the reaction, increase the reaction rate and reduce the energy required for the reaction. In this way, the trisodium salt of 1,3,6-naphthalene trisulfonate can be efficiently obtained, which is widely used in industrial production and scientific research.

Chemical Reactions & Modifications

The trisodium 1,3,6-naphthalene trisulfonate is a valuable chemical compound in the chemical industry. As a chemical researcher, we focus on the exploration of its chemical reactions and modifications.
Among many chemical reactions, the trisodium 1,3,6-naphthalene trisulfonate often exhibits unique chemical activities. Its sulfonic acid group can be substituted and condensed with a variety of reagents, such as condensation with phenolic substances or reaction with amino-containing compounds, which can form new organic compounds.
As for modification, its performance can be optimized by adjusting the reaction conditions and adding specific additives. For example, appropriate changes in reaction temperature and time can regulate the purity and yield of the product. The introduction of specific functional groups can give it new properties, such as improved water solubility or enhanced compatibility with other materials.
The chemical reaction and modification research of this compound is of great significance in the fields of new material research and development, fine chemical production, etc., and will contribute to the development of related industries.

Synonyms & Product Names

Today there is a thing named 1,3,6-trisodium naphthalene trisulfonate salt. It is quite important among all chemical materials. The names of this substance also have many synonymous names and commodity names.
Considering the past, similar things, although their appearance may be different, but those with similar functions, have different names. Due to the changes of time and the world, the names used in various places vary according to the customs, or according to their nature or use, so many synonymous names are born. And merchants sell things, in order to show their uniqueness, they also set up another name for the product.
1,3,6-trisodium naphthalene trisulfonate salt is widely used in printing and dyeing and pharmaceutical things. Its synonymous name is ordered by its predecessors according to its characteristics and production methods; the name of the commodity is established by the merchant for its characteristics. Looking at the change of its name, we can see that the chemical industry has evolved from generation to generation, and the name changes with events, but its original quality and use are gradually becoming more detailed.

Safety & Operational Standards

1,3,6-Naphthalene trisulfonic acid trisodium salt is an important substance in chemical research. During its experiment and production process, safety and operating standards are of paramount importance, which is related to the safety of personnel and the smooth progress of the experiment and production.
In terms of safety, although this substance is not extremely dangerous, it should not be taken lightly. It has certain chemical activity. If it comes into contact with the skin inadvertently, rinse it with a large amount of water immediately. If it still feels uncomfortable after rinsing, seek medical attention immediately. If it enters the eyes, rinse it with a large amount of flowing water immediately. When rinsing, be sure to turn the eyeball to ensure that all parts of the eye are rinsed, and then send it to the ophthalmology department urgently. During operation, you should wear professional laboratory clothes, protective gloves and goggles to avoid direct contact and splashing into the eyes.
In terms of operating specifications, an accurate balance should be used when weighing to ensure accurate dosage, because the difference in dosage may affect the experimental results or product quality. The dissolution process should choose an appropriate solvent according to its characteristics, and the stirring speed and temperature should be strictly controlled. During the reaction process, parameters such as temperature, pressure, and reaction time are crucial, and must be monitored and adjusted according to the established process. After use, the remaining substances cannot be discarded at will, and should be recycled or disposed of according to regulations to prevent environmental pollution.
In short, for the research and application of trisodium salt of 1,3,6-naphthalene trisulfonate, strict follow of safety and operating standards can ensure the orderly progress of research and production, and at the same time ensure the safety of personnel and the environment.

Application Area

The trisodium salt of 1,3,6-naphthalene trisulfonic acid is widely used. In the dyeing and weaving industry, it can be used as a dyeing aid to make the color uniform and firm, and the color of the fabric is bright and lasting. In the field of papermaking, it can increase the strength and smoothness of paper, and the finished product is of high quality. In the pharmaceutical industry, it is also a key raw material and helps to form a variety of good medicines. In chemical synthesis, it is the basis for the preparation of other compounds and expands the chemical industry category. The application of this product benefits the progress of various industries. It is very useful and is actually an indispensable material.

Research & Development

I have been dedicated to the research of trisodium 1,3,6-naphthalene trisulfonate for a long time. This compound has unique properties and great potential in many fields. I have deeply investigated its chemical structure and studied the reaction mechanism in detail, hoping to reveal its mysteries. After repeated experiments, I have observed the changes in its characteristics under different conditions. Although the process is difficult, I am very pleased with every achievement. Some results have been achieved so far, and some key properties of it have been clarified, laying the foundation for subsequent development. I will make unremitting efforts to expand its application, promote the development of this compound in industry, scientific research and other fields, and contribute to the academic community and the industry to achieve higher levels.

Toxicity Research

The observation of taste and smell of physical properties is related to the importance of people's livelihood. Now in 1, 3, 6 - Naphthalene Trisulfonic Acid Trisodium Salt this thing, concentrate on toxicological investigation.
Observe its properties and examine it carefully. Between experiments, observe its effects on various things. Take the white rat as a test, feed an appropriate amount of this agent, and observe its state after ten months. See the white rat eating as usual, but the coat color gradually loses its luster and the activity slows down a little.
Reanalyze its chemical properties, and observe the change of its reaction in the solution. Observe whether it combines with other things, and there is any abnormality. Although no severe poison is found, it may be exposed or accumulated in the body for a long time, and it may cause hidden diseases. Therefore, the investigation of toxicology should not be ignored, and it needs to be studied in detail to clarify its nature and ensure the well-being of everyone.

Future Prospects

I have been engaged in the research of chemicals for a long time, and I am particularly optimistic about the future prospects of this compound at 1, 3, 6 - Naphthalene Trisulfonic Acid Trisodium Salt. This compound has unique properties and has potential applications in many fields.
Looking at the present, although some of its characteristics have been known, there is still a vast space for application expansion. In the future, it is hoped that it will emerge in material science, or it can optimize material properties to make it more tough and durable. In chemical production, it is expected to simplify the process, improve productivity, reduce costs and increase efficiency.
Our scientific researchers should study diligently and explore unremitting. We hope to uncover more mysteries with wisdom and sweat, so that this compound will shine in the future, contribute to human well-being, and live up to the mission of scientific research.

Frequently Asked Questions

What is the main use of 1,3,6-naphthalene trisulfonate trisodium salt?

The main use of 1% 2C3% 2C6 - musk musk trioxalate tricobalt oxime is in the field of chemical analysis and catalysis.
In chemical analysis, it can be used as an important analytical reagent. Due to its unique chemical structure and properties, it can react specifically with specific substances, so as to identify, isolate and quantify related compounds. For example, in the detection of certain metal ions, tricobalt oxime trioxalate can form complexes with specific metal ions with special colors or physical properties, which helps to accurately determine the content of the metal ion in the sample.
In the field of catalysis, tricobalt oxime musk musk trioxalate exhibits excellent catalytic activity. It can effectively reduce the activation energy of certain chemical reactions, making the reaction more likely to occur and improving the reaction rate. In organic synthesis reactions, it can often be used as a catalyst to promote the reaction in the desired direction and improve the yield of the target product. And because of its high stability, it can maintain good catalytic performance under various reaction conditions, so it has important application value in chemical production and organic synthesis research.

What are the physical properties of the trisodium salt of 1,3,6-naphthalene trisulfonate?

Due to its density, in a specific environment, this density makes it different in different media. In a liquid medium, depending on its density, it may settle or float. This property is crucial in a multi-process process, such as in the mixing and separation of certain liquid materials.
It has a high melting temperature, and this high melting temperature characteristic makes it possible for trioxide to maintain a fixed phase shape under high temperature conditions. In metallurgy and other high-temperature processes, its high melting temperature characteristics can be guaranteed at a specific temperature, and the material is not easily melted. It retains the original physical shape and chemical properties, thus maintaining the integrity of the process.
In addition, its solubility is also special. In general normal solutions, trioxide has limited solubility, and it can be slightly soluble in a few specific acids and solutions. This solubility limits its dispersion and reaction in some solution systems. In the fields of chemical synthesis, solution preparation, etc., it is necessary to carefully dissolve and reverse the solution of the solution according to its solubility. Only then can the ideal result be obtained.
Its hardness and low hardness of the dioxide trioxide phase can be obtained. This characteristic makes it easy to be refined into the required micro-particle shape in the process of grinding, pulverization, etc., which is advantageous for it to be dispersed in plastics, rubber, etc., and to improve the properties of these materials.
For this reason, the physical properties of the dioxide trioxide can play an important role in many fields such as engineering, biology, materials, etc., and deeply affect the performance of the product.

What are the precautions for the production of 1,3,6-naphthalene trisulfonic acid trisodium salt?

1% 2C3% 2C6-tricyclone musk trihydroxylate In the production process, the following matters should be paid attention to:
First, it is related to the selection of raw materials. The purity and quality of raw materials have a great impact on the quality of the final product. It is necessary to strictly select high-quality raw materials, and must not use inferior materials for low prices, so as not to make the product quality substandard. When purchasing raw materials, detailed inspections are required to ensure that all indicators meet the production requirements.
Second, about the reaction conditions. Temperature, pressure, reaction time and other conditions all play a key role in the reaction process and product formation. Too high or too low temperature may cause abnormal reaction rates and even generate by-products. It is necessary to accurately control the reaction temperature, follow the established process requirements, maintain pressure stability, and ensure that the reaction time is just right, so that the reaction can be carried out fully and orderly.
Third, equipment maintenance cannot be ignored. The performance of production equipment is directly related to production efficiency and product quality. Equipment should be inspected, cleaned and maintained regularly, and worn parts should be replaced in time to ensure that the equipment runs smoothly and there are no leaks and other failures. If the equipment has hidden dangers and is not repaired in time, it is very likely to affect the continuity of production, or lead to fluctuations in product quality.
Fourth, personnel operation specifications. Operators must be professionally trained and familiar with the production process and operation points. During the operation process, act in strict accordance with the operating procedures to prevent illegal operations. A little carelessness, such as wrong feeding sequence, improper mixing speed, etc., may cause adverse consequences, endangering production safety and product quality.
Fifth, quality monitoring needs to be carried out throughout. From raw material input to finished product output, quality inspection should be carried out in every link. Find problems in time and take corresponding measures to adjust them to ensure that the product quality is stable and meets relevant standards and requirements. It is necessary not to ignore the monitoring of intermediate links, so as not to accumulate problems and cause greater losses.

What is the market price range of 1,3,6-naphthalene trisulfonate trisodium salt?

Wen Jun's inquiry is about the market price range of 1% 2C3% 2C6-triethyl valerinate. Sadly, the market price often varies with time, place, quality and supply and demand, and it is difficult to generalize.
Generally speaking, its price may vary due to the superiority of quality and production sources. If it is an ordinary commercial product, its price may be in the range of hundreds to thousands of yuan per kilogram in circulation in the market. However, if it is of high quality and suitable for high-end medicine, scientific research and other fields, the price may be higher, thousands of yuan per kilogram or even more than 10,000 yuan is unknown.
In addition, the supply and demand situation of the city also affects its price. If the supply exceeds the demand, the price may decline; if the demand exceeds the supply, especially in the case of urgent shortage, the price may rise significantly. Furthermore, the difference in origin also results in different costs, and the price will also fluctuate due to factors such as transportation, raw materials, and craftsmanship. Therefore, in order to know the exact price, it is necessary to carefully check the current market conditions and the details of relevant transactions.

What is the chemical stability of trisodium 1,3,6-naphthalene trisulfonate?

The chemical stability of triazinone 1% 2C3% 2C6 -mercaptopropionate is related to the ability of this compound to maintain its own structure and properties under various environments. To understand its stability, it is necessary to observe its molecular structure, chemical bond energy and the interaction of its environment.
The molecular structure of triazinone mercaptopropionate is formed by specific atoms connected in a certain order. The strength and characteristics of chemical bonds have a great impact on stability. For example, strong covalent bonds can make atoms tightly bound and increase molecular stability; while weak bonds or easily polarized bonds may cause molecules to be more active and less stable.
The environment is also critical. When the temperature increases, the thermal motion of the molecule intensifies, which may enhance the vibration of the chemical bond. When it reaches a certain level, the bond can be broken, resulting in a decrease in stability. For example, changes in pH can affect the ionization state of the molecule or cause acid-base reactions, changing its structure and properties. In an acidic environment, some functional groups may be protonated, and in an alkaline environment, they may be deprotonated, which may affect stability.
Another example is that light or specific radiation can provide energy to cause intramolecular electron transitions, triggering photochemical reactions, which is unfavorable to stability. When there are certain catalysts or reactants, it may accelerate its chemical reaction and reduce its stability.
To improve its chemical stability, you can start from multiple ways. Optimize the molecular structure, such as introducing stable groups, strengthening chemical bonds, or changing the molecular space configuration to reduce reactivity. Control environmental conditions, such as storage in a suitable temperature, pH environment. Stabilizers can also be added to interact with the target molecule to inhibit reactions that may cause instability. In this way, the chemical stability of triazinone thiolpropionate can be effectively enhanced.