Benzenesulfonic Acid, 4-[(E)-2-[4-[(2Z)-2-(2-Oxo-1(2H)-Naphthalenylidene)Hydrazinyl]Phenyl]Diazenyl]-, Sodium Salt (1:1)

Lingxian Chemical

Specifications

HS Code	879429
Chemical Name	Benzenesulfonic Acid, 4-[(E)-2-[4-[(2Z)-2-(2-Oxo-1(2H)-Naphthalenylidene)Hydrazinyl]Phenyl]]Diazenyl-, Sodium Salt (1:1)

Packing & Storage

Packing	1 kg of Sodium 4-[(E)-2-[4-[(2Z)-2-(2 - oxo-1(2H)-naphthalenylidene)hydrazinyl]phenyl]diazenyl]benzenesulfonate in paper bags.
Storage	Store “Benzenesulfonic Acid, 4-[(E)-2-[4-[(2Z)-2-(2-Oxo-1(2H)-Naphthalenylidene)Hydrazinyl]Phenyl]]Diazenyl-, Sodium Salt (1:1)” in a cool, dry place, away from direct sunlight and sources of heat. Keep the container tightly closed in a well - ventilated area, preferably in a dedicated chemical storage cabinet to prevent potential spills and contamination.
Shipping	The sodium salt of 4 -[(E)-2-[4 -[(2Z)-2-(2 -oxo-1(2H)-naphthalenylidene)hydrazinyl]phenyl]diazenyl]benzenesulfonic acid should be shipped in tightly sealed containers, protected from moisture and heat, following regulations for chemical goods.

Free Quote

For samples, pricing, or more information, please call us at +8615651039172 or mail to info@bouling-chem.com.

We will respond to you as soon as possible.

Tel: +8615651039172

Email: info@bouling-chem.com

Benzenesulfonic Acid, 4-[(E)-2-[4-[(2Z)-2-(2-Oxo-1(2H)-Naphthalenylidene)Hydrazinyl]Phenyl]Diazenyl]-, Sodium Salt (1:1)

General Information

Historical Development

When I heard about the chemical industry, there is a strange product called Benzenesulfonic Acid, 4- [ (E) -2- [4- [ (2Z) -2- (2-Oxo-1 (2H) -Naphthalenylidene) Hydrazinyl] Phenyl] Diazenyl] -, Sodium Salt (1:1). Although the beginning of its product is difficult to study in detail, the chemical industry has evolved and technology has gradually refined, so this product can be obtained.
In the past, chemistry was not yet prosperous, and the road to exploration was difficult. Many people are unknown about the properties of matter and the method of making it. Later generations of researchers have studied, analyzed the physical properties, and improved the method of making it, so this product came out. The process twists and turns, or the reagents are not ready, or the reaction is difficult to control, but the researcher is resolute and finally overcomes all difficulties. Since then, this product has gradually shown its use in chemical industry, adding luster to the industry and becoming a mark of chemical development.

Product Overview

Today there is a substance called Benzenesulfonic Acid, 4- [ (E) -2- [4- [ (2Z) -2- (2-Oxo-1 (2H) -Naphthalenylidene) Hydrazinyl] Phenyl] Diazenyl] -, Sodium Salt (1:1). The properties of this substance have a unique structure. It is a group derived from benzenesulfonic acid and a specific azanaphthalene group, which is connected by a diazo group and forms a salt with sodium ions. From a structural perspective, above the benzene ring, the sulfonic acid group gives it water-soluble properties, while the hydrazine group and diazo part derived from naphthalene give it special optical or reactive activities. Such a structure may have potential applications in the fields of dyes and drug development. Under specific conditions, it may participate in many chemical reactions, opening up new avenues for related research.

Physical & Chemical Properties

A new daily chemical agent is called 4- [ (E) -2 - [4- [ (2Z) -2 - (2-oxo-1 (2H) -naphthyl methyl) hydrazine] phenyl] diazo] benzenesulfonic acid, sodium salt (1:1). The physical and chemical properties of this agent are quite specific.
Looking at its shape, it is often solid at room temperature, white and pure in color, fine as powder, no variegated odor, pure and homogeneous. Its melting point is stable, and it melts at [X] ° C. This characteristic allows the agent to maintain a solid state in a specific temperature environment, with good stability.
When it comes to solubility, it can be moderately dissolved in water to form a clear liquid, but in organic solvents such as ethanol and ether, the solubility varies, depending on the interaction between the molecular structure and the solvent. And its chemical activity is also worthy of investigation. Functional groups such as diazo groups and sulfonic acid groups in the molecule endow it with specific chemical properties. Under specific conditions, it can react with a variety of reagents, or couple or replace, providing many possibilities for chemical synthesis.

Technical Specifications & Labeling

Today there is a product called Benzenesulfonic Acid, 4- [ (E) -2- [4- [ (2Z) -2- (2-Oxo-1 (2H) -Naphthalenylidene) Hydrazinyl] Phenyl] Diazenyl] -, Sodium Salt (1:1). Its technical specifications and identification (product parameters) are the most critical.
Looking at this product, the technical specifications need to clarify the method of its synthesis, the raw material ratio must be accurate, and the reaction conditions such as temperature, pressure, and duration must be appropriate. When preparing, all steps must follow the procedures to ensure the same product quality.
In terms of identification, the name of the product should be accurate, and the ingredient identification should be detailed, so that everyone can understand its composition. Product parameters such as purity, traits, etc. should also be clear so that the reader can judge. In this way, the essence of the product's technical specifications and labeling is important for R & D and manufacturing.

Preparation Method

Benzenesulfonic Acid, 4- [ (E) -2- [4- [ (2Z) -2- (2-Oxo-1 (2H) -Naphthalenylidene) Hydrazinyl] Phenyl]] Diazenyl] -, Sodium Salt (1:1) product, the method is as follows:
The selection of raw materials needs to be carefully selected and pure. Synthetic process, the first reaction step. First, mix 4- [ (E) -2 - [4 -aminophenyl] diazo] benzenesulfonic acid with (2Z) -2 - (2 -oxo-1 (2H) -naphthyl methyl) hydrazine in a specific ratio and catalyze the reaction under a suitable temperature and pressure environment. During this time, closely observe the reaction process and adjust the conditions in a timely manner to ensure a smooth reaction. After
is made, the purification mechanism is also crucial. Only by using exquisite methods to remove impurities and improve purity can the product reach excellent quality, which is the whole point of preparing this product.

Chemical Reactions & Modifications

There is now a thing called Benzenesulfonic Acid, 4- [ (E) -2- [4- [ (2Z) -2- (2-Oxo-1 (2H) -Naphthalenylidene) Hydrazinyl] Phenyl] Diazenyl] -, Sodium Salt (1:1). In the field of chemistry, its reaction and modification are worth studying.
The reaction of this compound is related to the mechanism of chemical change. The interaction of atomic groups in its structure may initiate the breaking and formation of bonds. Modification is aimed at optimizing its properties. Or change its chemical environment to fine-tune the molecular structure to obtain different properties.
In order to understand its chemical reaction and modification, it is necessary to observe its structure in detail, and analyze its atomic arrangement and functional group characteristics in an ancient way. Then explore the influence of external conditions such as temperature and solvent on it, in order to find the best way of reaction and modification, which will contribute to chemical research.

Synonyms & Product Names

In our study of chemistry, we often encounter a substance whose scientific name is "Benzenesulfonic Acid, 4- [ (E) -2- [4- [ (2Z) -2- (2-Oxo-1 (2H) -Naphthalenylidene) Hydrazinyl] Phenyl] Diazenyl] -, Sodium Salt (1:1) ". The synonym and trade name of this substance are also important for our investigation.
covers the field of chemistry. The same substance may have different names due to the order of discovery and different uses. The synonym of this compound can help us clarify its chemical structure and properties. The trade name is related to its practical use and is of great significance in industrial production and market circulation.
Studying such synonyms and trade names is like seeking secrets, which allows us to gain insight into the changing roles of chemical substances in different situations, which is of great benefit to chemical research and practical applications, and can also pave the way for the development of related fields.

Safety & Operational Standards

Regarding [Specific Chemical Substances] Safety and Operating Specifications
Chemical substances are related to people's livelihood and national plans, but their properties are different, either beneficial or harmful. Today's discussion on "Benzenesulfonic Acid, 4 - [ (E) -2 - [4 - [ (2Z) -2 - (2 - Oxo - 1 (2H) -Naphthalenylidene) Hydrazinyl] Phenyl] Diazenyl] -, Sodium Salt (1:1) " This substance must be detailed in its safety and operating specifications to ensure that everything goes smoothly and is safe.
The operation of this substance is the first priority for the cleanliness of the environment. It is suitable for a well-ventilated place to avoid the accumulation of gas to prevent accidents. And the operator in front of the protective gear, such as protective clothing, gloves, goggles, etc., do not make contact with the skin and eyes. Because it may be irritating, touching it may hurt the body and skin.
As for storage, it should be placed in a cool and dry place, away from fire and heat sources. Cover its nature or be affected by temperature and humidity, causing deterioration. It needs to be separated from other chemicals to avoid mixing and causing reactions and dangerous situations.
When using it, be sure to measure it accurately. Use a special instrument to measure it, do not rely on speculation. During operation, the action should be slow, stir slowly to prevent it from splashing out. If it is accidentally splashed on the body and skin, quickly rinse with a lot of water, and seek medical treatment for those who are serious.
Furthermore, after use, the disposal of the rest should not be ignored. Discard it according to the prescribed laws, do not dump it on the ground, and pollute the environment. And the utensils used must be washed and stored for later use.
In short, although chemical research can open up a new path of science, safety is more important than Mount Tai. Adhering to this safety and operation standard can ensure the well-being of researchers and promote the prosperity of the chemical industry.

Application Area

A new agent for daily use, called Benzenesulfonic Acid, 4- [ (E) -2- [4- [ (2Z) -2- (2-Oxo-1 (2H) -Naphthalenylidene) Hydrazinyl] Phenyl] Diazenyl] -, Sodium Salt (1:1). This agent has many wonderful uses for daily use.
In the realm of fabric washing, it can help remove stains, restore the clean color of the cloth, and does not damage the quality of the fabric, and the color is firm and complete. In the genus of skin care and beauty, it can adjust the acid and alkali of the skin surface, and help the essence penetrate into the skin, which is effective in nourishing the skin. It is also used in household cleaning products, which can quickly dissolve and remove scale, making the utensils as smooth as new. In the field of various applications, it has extraordinary capabilities. It is actually a good prescription for daily chemical use and adds a lot of color to the convenience of people's livelihood.

Research & Development

There is a substance named Benzenesulfonic Acid, 4- [ (E) -2- [4- [ (2Z) -2- (2-Oxo-1 (2H) -Naphthalenylidene) Hydrazinyl] Phenyl] Diazenyl] -, Sodium Salt (1:1). As a chemical researcher, I am very concerned about the research and development of this substance.
Looking at the structure of this substance, it contains a special group combination, and its benzenesulfonic acid part is connected to nitrogen-containing heterocycles and naphthalene groups, etc. This unique structure may endow it with specific chemical properties. At the beginning of the study, its molecular structure was analyzed in detail to clarify its reactivity check point.
In the development direction, it can be explored in the field of organic synthesis, or it can be used as an efficient catalyst, or in drug research and development, because of its structural characteristics, it is expected to become a lead compound, modified and modified to improve pharmacological activity. This is an important direction of research and development, and we need to study it in depth to understand its potential and promote its wide application.

Toxicity Research

Today, we are studying benzenesulfonic acid, named "Benzenesulfonic Acid, 4- [ (E) -2- [4- [ (2Z) -2- (2-Oxo-1 (2H) -Naphthalenylidene) Hydrazinyl] Phenyl] Diazenyl] -, Sodium Salt (1:1) ". Our generation focuses on its toxicity research. Cover such compounds, or due to their unique structure, the effect on organisms is unknown, and the toxicity effect remains to be explored. Although the toxicity studies of many chemicals in the past mostly followed a specific path and took into account various factors, the structure of this substance is novel, and its entry into organisms, interaction with various biomacromolecules, and whether it causes abnormal biochemical processes are unknown. Therefore, we will carefully design experiments to investigate its toxicity in multiple dimensions, from the cellular level to animal models, to clarify its potential harm to life systems, and lay the foundation for future application and prevention.

Future Prospects

Guanfu 4- [ (E) -2 - [4- [ (2Z) -2 - (2-oxo-1 (2H) -naphthalene subunit) hydrazine] phenyl] diazo] benzenesulfonic acid, sodium (1:1) Although this substance has been produced now, it still has a great period of development in the future.
Its structure is exquisite, containing diazonium, naphthalene and other groups, and it can be expected in dyes, medicine and other industries. In the field of dyes, or with its unique structure, it can produce brilliant colors and have excellent fastness, so that the fabric color will last forever. In the way of medicine, it may be able to use its unique activity to help treat diseases and find solutions to diseases.
We should study it diligently, explore its unfinished nature, and expand its undeveloped ability. When we hope for the future, we can make the best use of it to benefit the world, so that this delicate compound can shine and shine in various industries, and show extraordinary effects. This is a promising future.

Frequently Asked Questions

What is the chemical structure of this product?

The chemical structure of this product is formed by the connection of various elements in a specific way. The bonding between its atoms builds a unique spatial structure, like a delicate pavilion, and all parts are closely interdependent.
As "Tiangong Kaiwu" said, everything in the world has its own internal structure and principle. The atoms of this product are firmly connected in the form of a common electron pair by covalent bonds; or by ionic bonds, by the electrostatic attractive force between anions and cations. These two are common bonding methods in chemical structures, just like the combination of hardness and softness between heaven and earth.
In the spatial dimension, the atoms are arranged in an orderly manner, or in a straight line, which is concise and clear; or in a planar configuration, which is well-extended; or in a three-dimensional state, which is complex and delicate. Its spatial structure is not random, but actually follows the laws and laws of chemistry, just like everything in nature has its own number.
Part of the atoms, or form a ring structure, like a closed ring, which is self-contained; or form a chain-like structure, which stretches and stretches like a silk thread. These structural units are combined with certain laws to form the chemical structure of the product as a whole.
The subtlety of the chemical structure affects the many properties of the product. As explained in "Tiangong Kaiwu", the shape and nature of things are related to each other. A reasonable chemical structure endows the product with specific stability, reactivity, etc. If there are differences in structure, the properties will be very different. Therefore, exploring the chemical structure of this product is the key to understanding its properties and uses, like the key to opening the door to treasure.

What are the physical and chemical properties of this product?

The ideal nature of this product is related to its properties of texture, efficacy and use.
In terms of texture, it must be made of fine materials, solid and durable. Just like a good tool, the selection of materials is high, and it can pass through the years without damage. Its craftsmanship should be exquisite to the smallest, every detail has been carefully carved, and there is no rough state. It is full of delicacy and delicacy, like a treasure carefully crafted by a skilled craftsman, and it is natural.
In terms of efficacy, one should be excellent in efficacy, can achieve the intended purpose, and the effect is significant and long-lasting. For example, if it is a lighting object, it should be able to emit a bright and stable light, such as the bright moon rising, illuminating what is needed, rather than flickering and changing light and shade. Second, ease of use is also the key. The method of operation should be concise and clear, without cumbersome steps, and can be easily used by ordinary people. It is just like walking on the road, unobstructed, and does not require twists and turns.
As for the use, it should have a wide range of adaptability and can play a role in a variety of situations. It can not only add convenience to daily life, but also show its unique value on special occasions. It is like a universal key that can open many different doors. Not only that, but its adaptability to the surrounding environment and other items is also good. It is like a tenon-and-mortise fit, which complements each other, rather than being out of place and abrupt.
In short, the ideal properties of this product cover many aspects such as excellent texture, excellent efficacy, convenient use and wide range of uses. All of them are indispensable, so it can be called a good product.

What fields is this product used in?

This product is widely used and has applications in many fields.
In the field of military conquest, it can create sophisticated weapons to help soldiers defeat the enemy on the battlefield. Sharp swords and sturdy armor depend on this product to create a solid guarantee for marching and combat.
It also plays a key role in the place where buildings are built. Solid masonry and durable pillars are made from it, allowing the pavilion to rise up and withstand the wind and rain, carrying the crystallization of the wisdom and skills of the ancients.
In terms of daily usage, it is even more indispensable. The pots and pans, agricultural implements and utensils used by the common people are all made from this raw material. Only with practical agricultural tools can one cultivate and harvest, ensuring people's livelihood; only with convenient kitchen utensils can one cook delicious food and satisfy their appetite.
In the field of artistic creation, this product also shines brightly. Craftsmen can use it to carve exquisite jade and cast elegant bronze. The ingenious jade is warm and delicate; the simple and solemn bronze is engraved with historical memory and adds brilliance to the treasure house of Chinese art.
In short, whether it is war, architecture, people's livelihood or art, this product is deeply integrated and has become an important force to promote social development and civilization progress. It has a profound impact on the lives of the ancients.

What are the methods for preparing this product?

There are many kinds of methods for making billets of a certain product. Today's imitation of "Tiangong Kaiwu" is described in Chinese.
One is the pottery casting method. Choose good quality clay, knead it evenly, and shape it into the required billet shape. Or with the help of molds, to form a regular shape. This is an ancient method, and the ancestors made pottery and used it more often. The clay needs to be selected delicately and has good viscosity, so that the billet can be solid and delicate. When molding the billet, the technique should be skilled, and the force must be uniform, so as to avoid uneven thickness of the billet and easy to break when firing. When the billet is initially formed, put it in a ventilated place to dry in the shade, and then it can be fired in a kiln.
The second is the forging method. If the material is metal, it should be forged. The metal is first heated to a malleable state and hammered. Light or heavy, urgent or slow, depending on the shape of the blank. The position, strength and frequency of the hammer are all exquisite. A light hit can adjust its shape, and a heavy hit can confirm its quality. When forging, the temperature of the metal is very important. If it is overheated, the metal will easily dissipate, and if it is too cold, it will be difficult to shape. An experienced craftsman is required to observe its color and heat, and apply force in a timely manner to obtain a satisfactory blank.
The third is the casting method. Melt metal and other materials in a furnace to make it liquid, and then pour it into a prefabricated mold. The system of the mold must be accurate and correct, in accordance with the specifications of the blank body. When casting, the action should be steady and fast, so that the liquid material can be evenly filled with the mold. When it cools and solidifies, it can be demoulded to obtain the blank. The key lies in the design and production of the mold, as well as the control of the temperature and speed during casting.
The fourth is the engraving method. If it is a material such as stone and wood, the engraving method is commonly used. According to the design, the craftsman holds the knife and carefully crafts it. The knife method is changeable, with flat knives, round knives, oblique knives, etc. Or engrave lines, or pick the surface of the block, remove useless materials, and leave the essence. When carving, it is necessary to understand the characteristics of the material, and apply the art according to the material in order to show the beauty of the material and the charm of the body.
These several methods of making billets have their own strengths and are suitable for the needs of different materials and utensils. Craftsmen should judge the situation and make good use of them.

How safe and toxic is this product?

The safety and toxicity of this product are related to people's livelihood and cannot be ignored.
If you want to understand its safety, you should look at the materials used, the method of production, and the environment in which it is located. If the material is excellent, the production follows the ancient law, there are no cutting corners, illegal practices, and the environment is suitable, and it is not infected by various evil substances, the safety is high. For example, ancient utensils are made of natural materials, carefully carved by craftsmen, and do not apply harmful agents. They are rarely harmful to the human body. However, if the material is poor, contains many harmful ingredients, and the production is random, regardless of the rules, can such a product be safe?
When it comes to its toxicity, there are also many considerations. The presence or absence of toxicity may be apparent when it comes into contact with the human body, or after long-term use. If the substances contained in the product cause discomfort in contact with the human body, such as skin redness, itching, discomfort of the mouth and nose, or even more serious symptoms, this is a sign of toxicity. Or long-term use, toxins accumulate in the body, damage the viscera, and cause illness, which is also a sign of toxicity. Ancient doctors often observe drug toxicity and use drugs with caution to prevent injury. The toxicity of products should also be so carefully observed.
Looking at many products at the moment, there are those who put profit first and ignore safety and toxicity. However, there are also those who uphold conscience and make them with heart to ensure that the products are safe and non-toxic. In order to know the safety and toxicity of this product, it is necessary to study the source of raw materials, production process, and feedback from past users. If the raw materials are pure, the process is compliant, and the users are safe, the safety is high and the toxicity is low; conversely, it should be treated with caution and should not be used rashly, so as not to endanger yourself.