1,3-Naphthalenedisulfonic Acid, 7-((4-((((2-Methoxy-4-((3-Sulfophenyl)Azo)Phenyl)Amino)Carbonyl)Amino)Phenyl)Azo)-, Trisodium Salt

Lingxian Chemical

Specifications

HS Code	870382
Chemical Name	1,3 - Naphthalenedisulfonic Acid, 7 - ((4 - (((2 - Methoxy - 4 - ((3 - Sulfophenyl)Azo)phenyl)Amino)Carbonyl)Amino)phenyl)Azo)-, Trisodium Salt

Packing & Storage

Packing	1 kg pack of 1,3 - Naphthalenedisulfonic Acid trisodium salt chemical in proper packaging.
Storage	1,3 - Naphthalenedisulfonic Acid, 7 - [4 - {[(2 - Methoxy - 4 - (3 - sulfophenyl)azo)phenyl]amino}carbonylamino)phenyl]azo -, Trisodium Salt should be stored in a cool, dry place. Keep it in a tightly sealed container away from moisture, heat sources, and incompatible substances to prevent decomposition and ensure chemical stability over time.
Shipping	1,3 - Naphthalenedisulfonic acid, [complex azo - salt] trisodium salt should be shipped in tightly sealed containers. Suitable packing to prevent leakage is required, transporting in accordance with regulations for hazardous chemicals if applicable.

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1,3-Naphthalenedisulfonic Acid, 7-((4-((((2-Methoxy-4-((3-Sulfophenyl)Azo)Phenyl)Amino)Carbonyl)Amino)Phenyl)Azo)-, Trisodium Salt

General Information

Historical Development

1,3-Naphthalene disulfonic acid, 7- (4- ((((2-methoxy-4- (3-sulfophenyl) azo) phenyl) amino) carbonyl) amino) phenyl) azo) -, trisodium salt, chasing its origin, the beginning of chemistry in the past, the researchers dedicated themselves to exploring the mysteries of matter. At that time, the conditions were difficult, but the enthusiasm did not decrease.
At the beginning, only simple compounds were known, and then the technology gradually grew, and the research was in depth. In the field of organic chemistry, the synthesis of such complex salts, after countless attempts, the formula and conditions have been repeatedly pondered. From ignorance and trial to skill, every step is dedicated.
Its development process is a witness to the progress of chemistry. From unknown to familiar, from difficult to synthesize to stable preparation, many chemists have gone one after another to promote the emergence of this product in scientific research, industry and other fields, opening a new chapter.

Product Overview

There is now a product named 1,3-naphthalene disulfonic acid, 7- (4- (((2-methoxy-4- ((3-sulfophenyl) azo) phenyl) amino) carbonyl) amino) phenyl) azo) -, trisodium salt. This is a fine chemical product with a unique chemical structure. It may have extraordinary uses in dyes, pigments and other fields. Using naphthalene disulfonic acid as a group, it is modified by multiple azo reactions, amination, etc., and many functional groups are introduced, resulting in this complex structure. Due to its sulfonic acid sodium salt, or its good water solubility and ionic properties, it can exhibit unique physical and chemical properties in a specific system, or it can give materials a bright color, or it can be used as a specific catalyst or auxiliary agent in certain reactions. It is worth exploring in the field of chemical research and production.

Physical & Chemical Properties

1,3-Naphthalene disulfonic acid, 7- (4- ((((2-methoxy-4- (3-sulfophenyl) azo) phenyl) amino) carbonyl) amino) phenyl) azo) -, trisodium salt This substance has attracted much attention in my research due to its physical and chemical properties. Its appearance or powder shape of a specific color has characteristics of solubility. It is soluble in some solvents and insoluble in others. This is related to the interaction between polar groups and non-polar parts of the molecular structure. Its stability is also an important property. It can only be maintained under a specific temperature and pH environment. If the environment changes abruptly, it may undergo chemical changes, or decompose, or react with other substances. This is the main point obtained from in-depth investigation of the physical and chemical properties of the substance.

Technical Specifications & Labeling

Today, there is a product called 1,3-naphthalene disulfonic acid, 7- (4- (((2-methoxy-4- ((3-sulfophenyl) azo) phenyl) amino) carbonyl) amino) phenyl) azo) -, trisodium salt. For this product, the process specifications and identification (product parameters) are the key.
Looking at the process specifications, from the selection of raw materials, it is necessary to be pure and free of impurities, and to meet specific standards. The method of synthesis needs to follow a precise process, and the temperature, pressure and timing should be carefully controlled. The reaction device also needs to be suitable to ensure a smooth reaction.
As for the logo, state its chemical name, and describe its composition, standard properties, purity, solubility and other parameters. Make the viewer know its quality, and the user knows its nature. This is the essence of the process specifications and labels for the product, which is related to the quality and the wide range of applications.

Preparation Method

In this system, 1,3-naphthalene disulfonic acid, 7- ((4 - （（（（ 2-methoxy-4- (3-sulfophenyl) azo) phenyl) amino) carbonyl) amino) phenyl) azo) -, trisodium salt products, the method is as follows:
Preparation of raw materials, select pure naphthalene, sulfonic acid, azo reagents, etc., the degree of compatibility. Preparation process, naphthalene sulfonation, timely temperature control, to obtain 1,3-naphthalene disulfonic acid. After condensation with azo containing a specific structure, the reaction is carried out successively, temperature control, speed, in sequence.
The reaction steps are to sulfonate the naphthalene first, then introduce the azo group, and then condensate it with a specific amino group to form a key intermediate and finally form a sodium salt.
Activation mechanism, each step of the reaction is promoted by acid-base catalysis or additives to increase the activity and yield. In this way, this product can be obtained.

Chemical Reactions & Modifications

After studying 1,3 - Naphthalenedisulfonic Acid, 7- ((4 - (((( 2 - Methoxy - 4- ((3 - Sulfophenyl) Azo) Phenyl) Amino) Carbonyl) Amino) Phenyl) Azo) -, the reverse modification of Trisodium Salt. The modification of this object is reversed, and the interaction of the groups in it affects the way of the reverse.
To modify this substance, it is necessary to observe its properties. Among them, the azo group and other parts can be specified, or new groups can be introduced to improve their properties. For example, it is appropriate to use the azo group, or the azo group can be rearranged and the like can be reversed, and its optical and other properties can be improved.
However, when modifying the compound, careful consideration must be given to the reaction parts. Factors such as degree of resistance and solubility can all affect the formation of the reaction. Only by exploring and reversing the reaction can we hope to obtain the ideal modification effect and give this compound new characteristics and uses.

Synonyms & Product Names

1,3-Naphthalene disulfonic acid, 7- (4- ((((2-methoxy-4- (3-sulfophenyl) azo) phenyl) amino) carbonyl) amino) phenyl) azo) -, trisodium salt This compound is especially important in our chemical research. Its synonyms and trade names are also the key to exploring.
In the field of Guanfu chemistry, there are many people with the same thing but different names, and this compound is no exception. Its synonyms or aliases are designed to accurately describe its chemical structure and properties; trade names are related to commercial circulation and are well known in the market.
This compound is studied in detail today. Its complex structure contains naphthalene ring, sulfonic acid group, azo group, etc. The interaction of various groups gives it unique chemical properties. Although its synonyms and trade names are different, they all refer to this thing. Knowing the name of its same thing can avoid confusion, communicate smoothly and promote the development of the chemical field in research, production and application.

Safety & Operational Standards

1,3-Naphthalene disulfonic acid, 7- (4- ((((2-methoxy-4- (3-sulfophenyl) azo) phenyl) amino) carbonyl) amino) phenyl) azo) -, trisodium salt This chemical is related to safety and operating standards and is extremely important.
Describe its details. When this product is operated in the laboratory, the experimenter must wear special protective clothing, such as corrosion-resistant laboratory clothes, and professional protective gloves. The material is selected to effectively resist the corrosion of the chemical to avoid skin contact and adverse reactions. Eye protection is also indispensable. Goggles should be equipped to prevent chemicals from splashing into the eyes and damaging the eyesight.
For storage, it should be placed in a cool, dry and well-ventilated place. Keep away from fire and heat sources, because of its nature or dangerous reactions with heat and open flames. Store separately from other chemicals to avoid accidents caused by interaction.
There are also strict requirements for the operation process. When taking the chemical, you need to use a precise measuring tool, which is accurately measured according to the experimental requirements, and cannot be increased or decreased at will. The weighing process should be carried out in a fume hood to prevent the spread of harmful gases to the laboratory environment. If it is accidentally spilled, do not panic, and clean it up immediately according to the established process. First cover with a special adsorption material, collect it carefully, and then thoroughly clean the contaminated area with an appropriate solvent to ensure that there is no residue.
Only by strictly adhering to safety and operating standards can we ensure safety and promote effectiveness in research, avoid possible dangers, and enable scientific research to proceed smoothly.

Application Area

1,3-Naphthalene disulfonic acid, 7- ((4 - （（（（ 2 -methoxy-4- ((3 -sulfophenyl) azo) phenyl) amino) carbonyl) amino) phenyl) azo) -, trisodium salt, in the field of printing and dyeing, the function is quite good. It can be prepared with bright color and good fastness. With it, the color of the dyed fabric is tough, and it lasts for a long time. It is not easy to fade or change color. In the paper industry, it can also add color to the paper, making its color bright and lasting. Furthermore, in the preparation of some special printing inks, this product can help the ink achieve excellent color rendering and printing performance, making the printed objects clear and bright. In this way, it has shown extraordinary value in many practical fields that require accurate color rendering and long-lasting color.

Research & Development

The remaining 1,3-naphthalene disulfonic acid, 7- (4- (((2-methoxy-4- (3-sulfophenyl) azo) phenyl) amino) carbonyl) amino) phenyl) azo) -, trisodium salt has been studied for a long time. This compound has exquisite structure and unique properties. In the process of research, the synthesis method of it is carefully observed, and efforts are made to be accurate and complete. Explore different reaction conditions, such as temperature, solvent, and ratio of reactants, in order to obtain the best method to improve yield and purity.
also examines its application prospects, which may be useful in dyes, medicine and other fields. After repeated experiments, we have observed its performance in various fields, hoping to expand its use and promote the development of related industries. I will persevere and delve deeper into it, hoping to make new breakthroughs, and contribute to the research and development of this compound.

Toxicity Research

Toxicological Studies
Today's study of 1,3-naphthalene disulfonic acid, 7- (4- ((((2-methoxy-4- ((3-sulfophenyl) phenyl) amino) carbonyl) amino) phenyl) azo) -, the toxicology of trisodium salts.
The chemical structure of this substance is specific, and its effect on living organisms needs to be investigated urgently. Although the signs of its toxicity have not been widely heard, the chemically synthesized agents contain many potential risks.
To clarify its toxicology, various experiments should be conducted. Taking animals as models, observe the changes in physiological functions, organ morphology and function after ingestion, inhalation or exposure to this substance. Observe whether it has acute toxicity, such as convulsions, atrophy, and organ damage; also explore chronic toxicity, such as long-term exposure, how growth and development, reproductive reproduction are affected.
It is also necessary to study its mutagenicity to see if it can disturb the genetic material of the organism and cause genetic variation. And study teratogenicity, test whether it can cause deformities during embryonic development.
After this study, we can know the toxicological properties of 1,3-naphthalene disulfonic acid, 7- ((4- (((2-methoxy-4- ((3-sulfophenyl) azo) phenyl) amino) carbonyl) amino) phenyl) azo) -, trisodium salts in organisms, providing evidence for their safe application, risk prevention and control.

Future Prospects

I have tried to study this 1,3 - Naphthalenedisulfonic Acid, 7 - (4 - (((2 - Methoxy - 4 - (3 - Sulfophenyl) Azo) Phenyl) Amino) Carbonyl) Amino) Phenyl) Azo) -, Trisodium Salt. Looking at the present, although it has been studied, there is still a vast hope for the future.
This product is in the chemical industry, or can show extraordinary color. In the future, in the dyeing and weaving industry, it can make the color more beautiful and firm, and add a beautiful appearance to the fabric; in the process of scientific research, it may become a key agent, and the research assistant will break the problem and explore new knowledge.
Our generation should be enterprising and study unremittingly. With time, we will be able to tap its potential, make it shine in the future, use it for the world, benefit all people, and achieve a magnificent career.

Frequently Asked Questions

1,3-Naphthalene disulfonic acid, 7- ((4- (((2-methoxy-4- ((3-sulfophenyl) azo) phenyl) amino) carbonyl) amino) phenyl) azo) -, What is the chemical structure of the trisodium salt?

1% 2C3-octanoic acid, 7- ((4- (((2-ethoxy-4- ((3-carboxybenzyl) carbonyl) benzyl) amino) carbonyl) benzyl) amino) carbonyl) benzoic acid, the chemical structure of triadimefon is an important topic in the field of organic chemistry.
This compound has a complex structure and is composed of a combination of multi-functional groups. 1,3-octanoic acid, a linear compound with dicarboxyl groups, is often used as a basic raw material for building skeletons in organic synthesis. The carboxyl group at a specific position on the octane backbone endows the molecule with certain reactivity and chemical properties.
And the 7- ((4- (((2-ethoxy-4- ((3-carboxybenzyl) carbonyl) benzyl) amino) carbonyl) benzyl) carbonyl) benzoic acid part has a more complex structure. Contains many phenyl rings, etheric bonds, carbonyl and amino functional groups. The benzene ring provides a rigid planar structure, which affects the spatial configuration and physical properties of molecules; ether bonds increase the flexibility and solubility of molecules; carbonyl and amino groups are widely involved in various chemical reactions, such as amidation, esterification, etc., and play a key role in molecular construction and function realization.
Triazolones are a class of compounds containing triazole rings. The triazole ring is its core structure, which endows it with unique biological activity and chemical stability. Its interaction with surrounding groups determines the overall properties and functions of the compound. Triazolones often have properties such as bactericidal and plant growth regulation, and are widely used in agriculture. The synergy effect of the triazole ring and the surrounding substituents in its structure is the basis for its specific biological activity. The activity and selectivity of triadimefon are significantly affected by the type, location and amount of peripheral substituents. The study of this complex chemical structure is of great significance for in-depth understanding of its properties, functions and development of related applications.

1,3-Naphthalene disulfonic acid, 7- ((4- (((2-methoxy-4- ((3-sulfophenyl) azo) phenyl) amino) carbonyl) amino) phenyl) azo) -, What is the main use of trisodium salts?

1% 2C3-octanoic acid, 7- (4- (((2-ethoxy-4- (3-carboxybenzyl) carbonyl) benzyl) oxy) benzyl) oxy) benzyl) carbonyl) -, the main uses of harringtonine are: Harringtonine is an alkaloid isolated from Harringtonia plants. In the medical field, it plays a crucial role in anti-tumor. Specifically, it can affect the initial stage of eukaryotic protein synthesis, causing the polyribosome to depolymerize, so as to achieve the purpose of inhibiting the proliferation of tumor cells. Clinically, harringtonine is often used in the treatment of acute promyelocytic leukemia, acute core solo cell leukemia and acute myelogenous leukemia and other leukemia, and has shown a certain degree of efficacy. In addition, studies have also found that it may also have potential therapeutic value for some solid tumors, but related research is still in the process of continuous deepening and exploration. In short, harringtonine, as an ingredient with specific medicinal activities, provides an important means and choice for the treatment of tumor diseases.

1,3-Naphthalene disulfonic acid, 7- ((4- (((2-methoxy-4- ((3-sulfophenyl) azo) phenyl) amino) carbonyl) amino) phenyl) azo) -, What are the physical properties of trisodium salts?

1% 2C3-octanedioic acid, 7- (4- (((2-ethoxy-4- (3-carboxybenzyl) nitro) benzyl) amino) benzyl) amino) benzyl) nitro) -, triadimefon is an organic heterocyclic fungicide, its physical properties are as follows:
Triadimefon is mostly colorless crystalline in appearance and has a light odor. The melting point is about 82.3 ° C, and the boiling point is 220 ° C/4Pa. At normal temperature, the substance is relatively stable and not easy to volatilize and decompose. Its vapor pressure is 1.33 × 10 ^ ³ Pa (20 ° C), indicating that its volatility is weak.
In terms of solubility, triadimefon has certain characteristics. The solubility in water is relatively low, about 39.2mg/L at 20 ° C, but it can be well dissolved in a variety of organic solvents, such as acetone, acetonitrile, chloroform, dichloromethane, methanol, toluene, etc. The solubility in acetone can reach 1100g/L (20 ° C). This solubility allows it to be prepared with the help of suitable organic solvents in preparation and practical application to meet the needs of different use scenarios.
In addition, the density of triadimefon is about 1.22 (20 ° C), which affects its physical behavior such as dispersion and sedimentation in various media. Overall, these physical properties are of great significance for the storage, transportation, and application methods and effects of triadimefon in agriculture and other fields.

1,3-Naphthalene disulfonic acid, 7- ((4- (((2-methoxy-4- ((3-sulfophenyl) azo) phenyl) amino) carbonyl) amino) phenyl) azo) -, What are the precautions for the production of trisodium salts?

1% 2C3-thiadiazole acid, 7- (4- (((2-ethoxy-4- (3-thiophenyl) carbonyl) phenyl) amino) phenyl) amino) phenyl) carbonyl) -, triadiazolones have the following precautions in the production process:
First, it is related to the selection and storage of raw materials. The quality of raw materials has a profound impact on the output quality of triadiazolones, and the purity and characteristics of raw materials must be strictly controlled. Raw materials such as 1,3-thiadiazole acid need to be properly stored according to their chemical properties to avoid moisture, oxidation, etc., in order to prevent deterioration, so as to ensure the stable quality of raw materials and build a solid foundation for subsequent reactions.
Second, the control of reaction conditions is crucial. The chemical reaction of the production of triadiazolone requires strict conditions such as temperature, pressure, reaction time and catalyst dosage. If the temperature is too high or too low, the reaction may proceed in an unexpected direction, or the reaction rate and yield may be reduced; if the pressure is not properly controlled, the reaction balance and safety may be affected; if the reaction time is insufficient, the reaction may be incomplete, and if the reaction time is too long, it may lead to side reactions. As for the catalyst, the precise dosage can effectively promote the reaction. Too much or too little is not conducive to production.
Third, safety protection measures should not be underestimated. Many chemicals involved in production are toxic, corrosive or flammable. Staff must strictly wear protective equipment, such as protective clothing, gloves, goggles and gas masks, to prevent chemical substances from contacting the skin and inhaling the respiratory tract. At the same time, the production site should be equipped with complete ventilation facilities, fire fighting equipment and emergency treatment equipment to deal with emergencies.
Fourth, product separation and purification need to be handled with caution. After the reaction, the product is often mixed with impurities such as unreacted raw materials, by-products and catalysts. It is necessary to obtain high-purity triadimefon by suitable separation and purification methods, such as distillation, crystallization, extraction and chromatographic separation. During the operation, attention should be paid to the parameter control of each link to ensure the quality of the product and the collection rate.

1,3-Naphthalene disulfonic acid, 7- ((4- (((2-methoxy-4- ((3-sulfophenyl) azo) phenyl) amino) carbonyl) amino) phenyl) azo) -, what is the market price of trisodium salt?

I don't know what you mean by "1% 2C3-thiadiazole acid, 7- ((4- (((2-ethoxy-4- ((3-thiylphenyl) carbonyl) phenyl) amino) phenyl) phenyl) carbonyl) -, what is the market price of triadimefon?" However, if you want to know the market price of triadimefon, when you carefully observe the current business situation.
Looking at the market change, its price often changes from time to time, and it depends on various reasons. First, the situation of supply and demand is important. If at the time of frequent insect pests, farmers compete to buy triadimefon to protect their crops, the demand will be prosperous and the supply will not be sufficient, and the price will rise; on the contrary, if the insect pests are rare and the demand is few, and the producers are abundant, the supply will exceed the demand, and the price will fall.
Second, the price of raw materials is also related. The production of triadimefon depends on all kinds of raw materials. If the price of raw materials is high, the manufacturing cost will increase, and the market price will also increase accordingly; if the price of raw materials falls, the cost will decrease, and the price may appear to be lowered.
Third, policies and decrees can also move their prices. If the government issues strict regulations and imposes them on the links of production and circulation, the cost of the producer will increase, and the price may be pushed up by it; on the contrary, if there are supportive policies to promote the prosperity of the business, the price may be stable and decline.
Fourth, the state of market competition cannot be ignored. If there are many producers competing for the market at high quality and low price, the price will tend to be low; if there are oligopolies or collusion to control the price, the price may be high.
To clarify the current market price of triadimefon, it is advisable to visit various agricultural markets, consult merchants, or refer to professional business information platforms to obtain the actual situation.