Sodium (6E)-4-Amino-6-(2-{4'-[(2E)-2-(8-Amino-1-Oxo-3,6-Disulfonaphthalen-2(1H)-Ylidene)Hydrazinyl]-3,3'-Dimethoxybiphenyl-4-Yl}Hydrazinylidene)-5-Oxo-7-Sulfo-5,6-Dihydronaphthalene-2-Sulfonate

Lingxian Chemical

Specifications

HS Code	973215
Chemical Formula	C36H27N6Na3O15S4
Molecular Weight	994.88 g/mol
Appearance	Solid
Solubility In Water	Soluble
Ph Range	Neutral
Color	Likely colored, depending on structure
Stability	Stable under normal conditions
Odor	Odorless (usually for such salts)

As an accredited Sodium (6E)-4-Amino-6-(2-{4'-[(2E)-2-(8-Amino-1-Oxo-3,6-Disulfonaphthalen-2(1H)-Ylidene)Hydrazinyl]-3,3'-Dimethoxybiphenyl-4-Yl}Hydrazinylidene)-5-Oxo-7-Sulfo-5,6-Dihydronaphthalene-2-Sulfonate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	Package contains 500g of Sodium (6E)-4 - Amino - 6 - (2 - etc.) in sealed chemical - grade bag.
Storage	Store the chemical "Sodium (6E)-4 - Amino - 6-(2 - {4'-[(2E)-2-(8 - Amino - 1 - Oxo - 3,6 - Disulfonaphthalen - 2(1H)-Ylidene)Hydrazinyl]-3,3'-Dimethoxybiphenyl - 4 - Yl}Hydrazinylidene)-5 - Oxo - 7 - Sulfo - 5,6 - Dihydronaphthalene - 2 - Sulfonate" in a cool, dry place. Keep it away from heat, sources of ignition, and incompatible substances. Store in a tightly - closed container to prevent exposure to moisture and air.
Shipping	Shipping of Sodium (6E)-4-Amino-6-(2-{4'-[(2E)-2-(8-Amino-1-oxo-3,6 -disulfonaphthalen-2(1H)-ylidene)hydrazinyl]-3,3'-dimethoxybiphenyl -4 -yl}hydrazinylidene)-5 -oxo-7 -sulfo-5,6 -dihydronaphthalene -2 -sulfonate requires careful packaging per chemical transport regulations to ensure safety during transit.

Free Quote

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Sodium (6E)-4-Amino-6-(2-{4'-[(2E)-2-(8-Amino-1-Oxo-3,6-Disulfonaphthalen-2(1H)-Ylidene)Hydrazinyl]-3,3'-Dimethoxybiphenyl-4-Yl}Hydrazinylidene)-5-Oxo-7-Sulfo-5,6-Dihydronaphthalene-2-Sulfonate

General Information

Historical Development

Guanfu Sodium (6E) -4-Amino-6- (2- {4 '- [ (2E) -2- (8-Amino-1-Oxo-3,6-Disulfonaphthalen-2 (1H) -Ylidene) Hydrazinyl] -3,3' -Dimethoxybiphenyl-4-Yl} Hydrazinylidene) -5-Oxo-7-Sulfo-5, 6-Dihydronaphthalene-2-Sulfonate the rise of this thing. In the past, chemistry was not prosperous, and few people knew such fine compounds. However, the years have passed, and the sages have worked tirelessly. Since the beginning of chemistry, people have been exploring matter. And in modern times, the instruments have been refined, and the analysis of molecular structures has become more and more clear. Scholars, after countless trials and errors, have gradually obtained the method of preparing this thing. From its beginnings of ignorance to today's technology, its development path is like a long river rushing, day and night, thus enabling this compound to emerge in various fields such as chemical engineering and scientific research, with a wide range of uses, and also witnessing the brilliant evolution of chemistry.

Product Overview

This chemical substance is very complex, and its name is "Sodium (6E) -4-Amino-6- (2- {4 '- [ (2E) -2 (8-Amino-1-Oxo-3,6-Disulfonaphthalen-2 (1H) -Ylidene) Hydrazinyl] -3,3' -Dimethoxybiphenyl-4-Yl} Hydrazinylidene) -5-Oxo-7-Sulfo-5, 6-Dihydronaphthalene-2-Sulfonate". The structure of this substance is exquisite, composed of many atomic groups. It contains specific amino groups, sulfonyl groups and other functional groups, giving it unique chemical properties. Or because of the structure, in a specific reaction system, it can exhibit special chemical activity, or under light, electricity, heat and other conditions, showing different properties. It may have potential application value in the fields of chemical engineering, materials, etc. However, its specific utility still needs to be further explored to clarify its characteristics and application prospects.

Physical & Chemical Properties

Sodium (6E) -4-Amino-6- (2- {4 '- [ (2E) -2- (8-Amino-1-Oxo-3,6-Disulfonaphthalen-2 (1H) -Ylidene) Hydrazinyl] -3,3' -Dimethoxybiphenyl-4-Yl} Hydrazinylidene) -5-Oxo-7-Sulfo-5, 6-Dihydronaphthalene-2-Sulfonate this material, its physicalization is very important. In terms of physicality, it may have a specific color and shape, such as the appearance of a powder or a crystal, and has a certain melting temperature, which is essential to determine its characteristics. In terms of chemical properties, it contains a polygroup in it, which determines its chemical activity. Contains amino groups, sulfonic acid groups, etc., which can be neutralized and reversed, such as acid neutralization and substitution. Knowing the physicality of this object is of great help to chemical research and engineering, which can help us make better use of it and enhance its effectiveness.

Technical Specifications & Labeling

Today there is a thing called Sodium (6E) -4-Amino-6- (2- {4 '- [ (2E) -2 (8-Amino-1-Oxo-3,6-Disulfonaphthalen-2 (1H) -Ylidene) Hydrazinyl] -3,3' -Dimethoxybiphenyl-4-Yl} Hydrazinylidene) -5-Oxo-7-Sulfo-5,6-Dihydronaphthalene-2-Sulfonate. Its technical regulations and identification (product parameters) are the key. To clarify this thing, we should study its technical regulations in detail. The technical regulations are related to the production method, the example of ingredients, etc. The logo shows its characteristics and uses. In this thing, it is necessary to follow the precise technical regulations, clarify the method of synthesis, and control the proportion of its ingredients. And to clearly identify, to ensure its quality and function. Only in this way can we make good use of this thing and gain something in the study of all things.

Preparation Method

Sodium (6E) -4-Amino-6- (2- {4 '- [ (2E) -2- (8-Amino-1-Oxo-3,6-Disulfonaphthalen-2 (1H) -Ylidene) Hydrazinyl] -3,3' -Dimethoxybiphenyl-4-Yl} Hydrazinylidene) -5-Oxo-7-Sulfo-5, 6-Dihydronaphthalene-2-Sulfonate this.
Its raw materials and production process are quite exquisite. Choose high-quality raw materials, carefully selected, to remove their impurities. When making, follow specific reaction steps. First, mix several raw materials in precise proportions, in a special container, and control them to the appropriate temperature and pressure.
When reacting, closely observe their changes and fine-tune the conditions in a timely manner. After the reaction is completed, the product is purified by a specific conversion mechanism. In this way, the Sodium (6E) -4-Amino-6- (2- {4 '- [ (2E) -2- (8-Amino-1-Oxo-3,6-Disulfonaphthalen-2 (1H) -Ylidene) Hydrazinyl] -3,3' -Dimethoxybiphenyl-4-Yl} Hydrazinylidene) -5-Oxo-7-Sulfo-5,6-Dihydronaphthalene-2-Sulfonate product can be prepared to meet the required standards.

Chemical Reactions & Modifications

A new study on Sodium (6E) -4-Amino-6- (2- {4 '- [ (2E) -2 (8-Amino-1-Oxo-3,6-Disulfonaphthalen-2 (1H) -Ylidene) Hydrazinyl] -3,3' -Dimethoxybiphenyl-4-Yl} Hydrazinylidene) -5-Oxo-7-Sulfo-5, 6-Dihydronaphthalene-2-Sulfonate this thing.
The researcher observed the chemical reaction, and saw the phenomenon of chemical reaction, or the color change, the change of the state, or the new quality. However, at the beginning, the rate of chemical reaction was not good, the yield was not high, and the purity of the product was insufficient.
Then think about changes, adjust the various factors of the reaction, if temperature and pressure, change the amount and order of the reagent. And try different catalysis, hope to promote the speed of the reaction and improve the rate. After repeated trials, the reaction should be gradually improved, the yield increased, and the product became purer. This is the work of adjustment, so that the properties of the product can be optimized, which can add new colors to the daily chemical use.

Synonyms & Product Names

The name Sodium (6E) -4-Amino-6- (2- {4 '- [ (2E) -2 (8-Amino-1-Oxo-3,6-Disulfonaphthalen-2 (1H) -Ylidene) Hydrazinyl] -3,3' -Dimethoxybiphenyl-4-Yl} Hydrazinylidene) -5-Oxo-7-Sulfo-5,6-Dihydronaphthalene-2-Sulfonate. Its equivalent words and trade names are also valued by the academic community.
If the word is equivalent, it may be called differently depending on the region or school. However, it all refers to this specific chemical substance. As for the trade name, it is set up by the merchant to facilitate the promotion and identification of this product.
This substance is in the field of chemical research, and its equivalent words and trade names are like the logo of the boat, which can help researchers accurately recognize and use it. Although the names are different, the references are all indispensable elements for promoting the progress of chemical research and understanding the nature of substances.

Safety & Operational Standards

Sodium (6E) -4-Amino-6- (2- {4 '- [ (2E) -2- (8-Amino-1-Oxo-3,6-Disulfonaphthalen-2 (1H) -Ylidene) Hydrazinyl] -3,3 -Dimethoxybiphenyl-4-Yl} Hydrazinylidene) -5-Oxo-7-Sulfo-5, 6-Dihydronaphthalene-2-Sulfonate This thing is related to the safety and handling regulations, and it is really important.
Those who settle down should be stored safely for the first time. When placed in a cool and dry place, away from the exposure of the hot sun and the immersion of water vapor. And it needs to be stored at intervals with all kinds of easily flammable and flammable things to prevent unexpected changes. The storage device should be made of a solid and sealed material to avoid contact with external objects and biochemical changes.
The rules of handling should not be ignored. When handling, it is necessary to use suitable protection, such as gloves, eyepieces, etc., to prevent them from touching the skin and entering the eyes. The area of handling should be well ventilated to avoid danger caused by the accumulation of gas. If you have access, be sure to use a precise measuring device to control its measurement, and do not use it too much or too much. After use, the rest should also be disposed of in accordance with regulations, and should not be disposed of at will to prevent contamination in the four borders.
Anyone who handles this thing should be familiar with the rules of safety and handling, and always be cautious, so that they can use it and avoid its risks, and ensure that everything goes smoothly and is safe.

Application Area

Sodium (6E) -4-Amino-6- (2- {4 '- [ (2E) -2- (8-Amino-1-Oxo-3,6-Disulfonaphthalen-2 (1H) -Ylidene) Hydrazinyl] -3,3' -Dimethoxybiphenyl-4-Yl} Hydrazinylidene) -5-Oxo-7-Sulfo-5, 6-Dihydronaphthalene-2-Sulfonate This product has a wide range of application fields. In the dyeing and weaving industry, it can be used as a pigment to give fabrics a brilliant color, and has good color fastness. It can last for a long time and is not easy to fade. In the field of scientific research, because of its unique structure and properties, it can be a reagent for chemical analysis and helps researchers analyze the composition and structure of substances. In addition, in biochemical research, it may participate in the tracing of some biological reactions to clarify its mechanism. This is an important category of its application, which shows that this thing is of great value in many fields.

Research & Development

The research of a chemical substance is related to Sodium (6E) -4-Amino-6- (2- {4 '- [ (2E) -2 (8-Amino-1-Oxo-3,6-Disulfonaphthalen-2 (1H) -Ylidene) Hydrazinyl] -3,3' -Dimethoxybiphenyl-4-Yl} Hydrazinylidene) -5-Oxo-7-Sulfo-5, 6-Dihydronaphthalene-2-Sulfonate research and development.
This product is being studied today to clarify its properties and explore its use. In the experimental room, its changes are carefully observed, its components are analyzed, and the rules of the reaction are studied. Hope to get exquisite results, so that this product can be used in industry, medicine and other fields to develop its growth and be used by the world. Researchers study day and night, based on ancient methods and innovative methods, hoping that this product will become a success, adding luster to the research of chemistry, assisting the progress of science and technology, and benefiting everyone.

Toxicity Research

Yu tasted Sodium (6E) -4-Amino-6- (2- {4 '- [ (2E) -2- (8-Amino-1-Oxo-3,6-Disulfonaphthalen-2 (1H) -Ylidene) Hydrazinyl] -3,3' -Dimethoxybiphenyl-4-Yl} Hydrazinylidene) -5-Oxo-7-Sulfo-5, 6-Dihydronaphthalene-2-Sulfonate the toxicity of this substance. The nature of this substance is related to people's livelihood. Although this product has not been widely used, the study of toxicity should not be ignored.
Detailed observation of its structure, containing many groups, or involving toxicity. Looking at the past, all substances with such structures have strong or weak toxicity. Although there is no evidence, it cannot be prevented. Experiments were set up to measure its effects on living things. Observe the state of cells, observe their growth and apoptosis changes; test in animals, depending on their physiology and behavior. In the hope of understanding the presence and strength of its toxicity, for the future use of this thing, or to prevent its harm, to provide evidence, to ensure the well-being of everyone, to avoid disasters.

Future Prospects

Looking at the chemistry of the world, new things are emerging. There is a thing called Sodium (6E) -4-Amino-6- (2- {4 '- [ (2E) -2 (8-Amino-1-Oxo-3,6-Disulfonaphthalen-2 (1H) -Ylidene) Hydrazinyl] -3,3' -Dimethoxybiphenyl-4-Yl} Hydrazinylidene) -5-Oxo-7-Sulfo-5,6-Dihydronaphthalene-2-Sulfonate. Its nature is unknown, but we chemists are all looking forward to the future.
Thinking about it, this thing may have unique properties and can shine extraordinary light in the fields of materials and medicine. Or it can help medical research and development to solve difficult diseases; or it can be used for material innovation to create tough and novel quality. Although the road ahead is not clear, our generation upholds the spirit of exploration and expects to make the best use of it in the future, for the well-being of the world, so that the light of science can illuminate the unknown. This is the wish of our chemical researchers and the prospect of the future.

Where to Buy Sodium (6E)-4-Amino-6-(2-{4'-[(2E)-2-(8-Amino-1-Oxo-3,6-Disulfonaphthalen-2(1H)-Ylidene)Hydrazinyl]-3,3'-Dimethoxybiphenyl-4-Yl}Hydrazinylidene)-5-Oxo-7-Sulfo-5,6-Dihydronaphthalene-2-Sulfonate in China?

As a trusted Sodium (6E)-4-Amino-6-(2-{4'-[(2E)-2-(8-Amino-1-Oxo-3,6-Disulfonaphthalen-2(1H)-Ylidene)Hydrazinyl]-3,3'-Dimethoxybiphenyl-4-Yl}Hydrazinylidene)-5-Oxo-7-Sulfo-5,6-Dihydronaphthalene-2-Sulfonate manufacturer, we deliver: Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements. Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery. Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.

Frequently Asked Questions

As a leading Sodium (6E)-4-Amino-6-(2-{4'-[(2E)-2-(8-Amino-1-Oxo-3,6-Disulfonaphthalen-2(1H)-Ylidene)Hydrazinyl]-3,3'-Dimethoxybiphenyl-4-Yl}Hydrazinylidene)-5-Oxo-7-Sulfo-5,6-Dihydronaphthalene-2-Sulfonate supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

This is a complex organic compound, and its chemical structure is described as follows:
The core structure of this compound is the naphthalene structure. On the naphthalene ring, many specific substituents are cleverly connected. In 4-amino-6- (2- {4 '- [ (E) -2- (8-amino-1-oxo-3,6-disulfonaphthalene-2 (1H) -subunit) hydrazine] -3,3' -dimethoxybiphenyl-4-yl} hydrazinyl) -5-oxo-7-sulfonyl-5,6-dihydronaphthalene-2-sodium sulfonate, the 5-position of the naphthalene ring has a monocarbonyl group, and the 7-position has a sulfonic acid group, The 4-position is connected with an amino group.
The substituent at the 6-position is particularly complex, and it is connected by a series of connections, including the biphenyl structure. The 3,3 '-positions of the biphenyl have methoxy groups, and the 4-position is connected to a structure containing a hydrazine group. This hydrazine group is in turn connected to the 8-amino-1-oxo-3,6-disulfonate naphthalene-2 (1H) -subunit. In addition, the whole compound contains sodium ions, which take the form of sodium sulfonate.
Overall, the structure of this compound fuses a variety of aromatic rings, amino groups, carbonyl groups, sulfonic acid groups and other groups, and each part is connected in an orderly manner to form a complex and delicate chemical structure. This structure gives it unique chemical properties and potential application characteristics, or demonstrates its utility in many fields such as dyes and medicine.

This is a chemical with a long and complicated name, "Sodium (6E) -4-Amino-6- (2- {4 '- [ (2E) -2 (8-Amino-1-Oxo-3,6-Disulfonaphthalen-2 (1H) -Ylidene) Hydrazinyl] -3,3' -Dimethoxybiphenyl-4-Yl} Hydrazinylidene) -5-Oxo-7-Sulfo-5, 6-Dihydronaphthalene-2-Sulfonate". These chemicals are used in many fields.
In the field of dyeing and weaving, it is often used as a dye. With its unique chemical structure, it can tightly combine with fabric fibers, making the fabric dyed with a brilliant and long-lasting color. The fastness is quite good. Whether it is light, washing or rubbing, it is not easy to fade. It adds color to the fabric and enhances its quality and appearance.
In scientific research, because of its special structure, it may become an ideal model for studying the relationship between molecular structure and properties. Scientists can study its interaction with other substances, gain insight into the chemical reaction mechanism, explore new material synthesis methods, and promote the continuous progress of chemistry.
In the field of analysis and detection, it may be possible to use its special chemical properties to build highly sensitive analytical methods. For example, as a color reagent, it reacts with specific substances to produce color changes, enabling qualitative and quantitative detection of target substances and accurate analysis.

This is a complex organic compound with the following physical properties:
Looking at its morphology, or as a powdery solid, the color often varies depending on the specific structure of the group contained. There are many conjugated systems in the molecule, such as naphthalene rings and biphenyl structures, which may give it a light yellow to orange tone.
Speaking of solubility, this compound has good solubility in water due to the structure of multiple sulfonate-based sodium salts. Sulfonate-based sodium salts are hydrophilic and easily form hydrogen bonds with water molecules to promote solubility. However, in common organic solvents, such as ethanol, ether, and chloroform, solubility may be limited due to their high molecular polarity and weak interaction with non-polar organic solvents. In terms of melting point, the compound has a high melting point due to its large molecular weight and complex structure, and strong intermolecular forces. The exact melting point needs to be determined experimentally, but it can be speculated that because of its tight structure and many interactions, a higher temperature is required to destroy the lattice and melt the crystal. In terms of stability,
is relatively stable under general conditions. However, due to the presence of amino groups, imino groups and other groups, it has certain reactivity. In a strong acid or alkali environment, or under specific temperature and light conditions, some chemical bonds may undergo reactions such as cracking and rearrangement. For example, amino groups can react with acids to form salts. When there is a high temperature or strong oxidant, sulfur-containing groups, unsaturated bonds, etc. in the molecule may be oxidized, which affects its stability.

To prepare Sodium (6E) -4-Amino-6- (2- {4 '- [ (2E) -2 (8-Amino-1-Oxo-3,6-Disulfonaphthalen-2 (1H) -Ylidene) Hydrazinyl] -3,3' -Dimethoxybiphenyl-4-Yl} Hydrazinylidene) -5-Oxo-7-Sulfo-5, 6-Dihydronaphthalene-2-Sulfonate this product, the preparation method is as follows:
First of all, the required raw materials and reagents should be prepared. The raw materials should be carefully selected to ensure high purity and quality. This is the foundation for the smooth progress of the reaction. The reagents should also be carefully selected to ensure their activity and applicability.
In a clean reaction vessel, put the raw materials in a precise ratio. This ratio needs to be calculated according to rigorous stoichiometry. There is a slight difference, or the reaction result may be a thousand miles away. After the raw material is put in, slowly inject an appropriate amount of solvent to fully dissolve the raw material and create a suitable reaction environment.
Then, the reaction system is heated to a specific temperature. The control of temperature is crucial. If it is too high or too low, it may affect the reaction rate and product formation. This specific temperature is determined by repeated experiments and investigations, and it needs to be strictly controlled according to the characteristics and mechanism of the reaction.
When the reaction is carried out, it is necessary to pay close attention to the process of the reaction. A variety of analytical methods can be used, such as thin-layer chromatography, high-performance liquid chromatography, etc., to monitor the changes in the reaction system in real time, and to gain insight into the consumption of raw materials and the formation of products.
When the reaction reaches the expected level, the reaction should be terminated in a timely manner. The way to terminate the reaction is either cooling down or adding a specific stopping agent, depending on the specific situation of the reaction.
After the reaction is completed, the product is separated and purified. This step may involve filtration, extraction, crystallization and other operations to remove impurities remaining in the reaction system and obtain high-purity target products.
After these kinds of operations, you can get Sodium (6E) -4-Amino-6- (2- {4 '- [ (2E) -2 (8-Amino-1-Oxo-3,6-Disulfonaphthalen-2 (1H) -Ylidene) Hydrazinyl] -3,3 -Dimethoxybiphenyl-4-Yl} Hydrazinylidene) -5-Oxo-7-Sulfo-5,6-Dihydronaphthalene-2-Sulfonate, but the whole process requires the experimenter to operate strictly and not slack.

This is a rather complex chemical named " (6E) -4-amino-6- [ (2- {4 '- [ (E) -2 (8-amino-1-oxo-3,6-disulfonaphthalene-2 (1H) -subunit) hydrazinyl] -3,3' -dimethoxybiphenyl-4-yl} hydrazinyl) methylene] -5-oxo-7-sulfonyl-5,6-dihydronaphthalene-2-sulfonate sodium". There are many things to pay attention to in chemical production and experimental operations.
First, because of its complex chemical structure, nature or more special, when storing, it is necessary to choose a dry, cool and well-ventilated place, so as to avoid it from reacting with moisture and oxygen in the air and causing it to deteriorate.
Second, when taking and handling this substance, it is necessary to strictly follow the operating procedures. Because it may be corrosive, irritating, or even toxic, it is necessary to wear appropriate protective equipment, such as protective gloves, protective glasses, and laboratory clothes, to prevent it from contacting the skin and eyes and causing damage to the body. In case of accidental contact, rinse with plenty of water immediately, and seek medical attention quickly according to the specific situation.
Third, when using this substance for chemical reactions, the reaction conditions must be precisely controlled, such as temperature, pH, reaction time, etc. Due to its complex structure, different reaction conditions, or huge differences in products, or side reactions, the monitoring and regulation of the reaction process is extremely critical.
Fourth, the waste disposal of this substance should not be ignored. Be sure to follow relevant environmental regulations, properly dispose of the waste substance, and must not be discarded at will to avoid pollution to the environment.