Ethane-1,2-Disulfonic Acid - 2-Chloro-10-[3-(4-Methylpiperazin-1-Yl)Propyl]-10H-Phenothiazine (1:1)

Lingxian Chemical

Specifications

HS Code

121462

Packing & Storage

Packing	1 kg of Ethane - 1,2 - Disulfonic Acid - 2 - Chloro compound in sealed chemical - grade package.
Storage	Store "Ethane - 1,2 - Disulfonic Acid - 2 - Chloro - 10 - [3 - (4 - Methylpiperazin - 1 - Yl)Propyl] - 10H - Phenothiazine (1:1)" in a cool, dry place, away from heat sources and direct sunlight. Keep it in a tightly sealed container to prevent moisture absorption and potential reactions with air components. Ensure proper labeling and storage in a dedicated area for chemicals, following safety protocols.
Shipping	Ethane - 1,2 - Disulfonic Acid - 2 - Chloro - 10 - [3 - (4 - Methylpiperazin - 1 - Yl)Propyl] - 10H - Phenothiazine (1:1) is shipped with strict adherence to chemical transport regulations, ensuring proper containment and handling to prevent spills and ensure safety during transit.

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Ethane-1,2-Disulfonic Acid - 2-Chloro-10-[3-(4-Methylpiperazin-1-Yl)Propyl]-10H-Phenothiazine (1:1)

General Information

Historical Development

Ethane - 1, 2 - Disulfonic Acid - 2 - Chloro - 10 - [3 - (4 - Methylpiperazin - 1 - Yl) Propyl] - 10H - Phenothiazine (1:1) This thing, its development process, through the ages, there are also traces to follow. At the beginning, the research of chemistry was explored step by step. At that time, the sages kept studying all kinds of substances. With the passage of time, the technology is gradual, and the understanding of this thing is gradually deepened. In the past, due to the limitations of conditions, the progress was slow, but many researchers were determined. In later generations, science and technology flourished, the instruments were sophisticated, and the research was accelerated. After countless tests and analyses, its characteristics and production methods were finally understood. All the way, from ignorance to clarity, just like a boat on the sea, it finally reaches the other side, occupies a place in the field of chemistry, and is used by future generations. Its development process is actually the epitome of the progress of chemical research.

Product Overview

There is a substance called Ethane - 1,2 - Disulfonic Acid - 2 - Chloro - 10 - [3 - (4 - Methylpiperazin - 1 - Yl) Propyl] - 10H - Phenothiazine (1:1). This is an important substance in chemical research. It is composed of ethane disulfonic acid combined with a specific chlorophenothiazine derivative in a ratio of 1:1.
This substance has a unique structure and has both the hydrophilicity of sulfonic acid groups and the special chemical properties of phenothiazine structure. The sulfonic acid group gives it good water solubility and helps to function in aqueous solution systems; while the phenothiazine part, due to its conjugated structure, may have special optical, electrical or biological activities. This substance may show unique application potential in chemical synthesis, drug development, materials science and many other fields, which needs to be further explored by us to understand its more characteristics and uses.

Physical & Chemical Properties

Ethane - 1,2 - Disulfonic Acid - 2 - Chloro - 10 - [3 - (4 - Methylpiperazin - 1 - Yl) Propyl] - 10H - Phenothiazine (1:1) This compound is very important for its physicochemical properties. Its physical properties may have specific melting points and boiling points, which are related to the state at different temperatures. Chemical properties involve its reactivity and properties in various chemical reactions. The structure of this compound determines the mode of interaction with other substances. Its sulfo, chlorine atoms and piperazinyl groups all have significant effects on its properties. Knowing the physical and chemical properties of this compound is an indispensable foundation in many fields such as chemical preparation and pharmaceutical research and development, and is related to the effectiveness and direction of practical application.

Technical Specifications & Labeling

Today there is a product named Ethane - 1, 2 - Disulfonic Acid - 2 - Chloro - 10 - [3 - (4 - Methylpiperazin - 1 - Yl) Propyl] - 10H - Phenothiazine (1:1). Its technical specifications and identification (product parameters) are the key. To make this product, you need to follow precise technical procedures. From the selection of raw materials, you must be pure and free of impurities, and the proportions of each ingredient conform to the formula. The temperature, pressure and time of the reaction are all fixed, and there should be no slight difference. After making, check its identification and carefully review the product parameters, such as purity and properties, etc., should be accurate. Only in this way can we obtain a good product, so that this chemical substance can reach the required quality and be suitable for various uses.

Preparation Method

The method of Ethane - 1, 2 - Disulfonic Acid - 2 - Chloro - 10 - [3 - (4 - Methylpiperazin - 1 - Yl) Propyl] - 10H - Phenothiazine (1:1) is related to the raw materials and production process, reaction steps and catalytic mechanism. The selection of raw materials needs to be carefully selected, and each is suitable. The production process follows a rigorous sequence, and all raw materials are prepared first and proportionally. In the reaction step, a certain number of substances are first mixed, temperature and pressure are controlled, and their reaction is promoted. In the meantime, the catalytic mechanism is particularly critical, and specific catalysts are used to increase efficiency. In this way, after multiple operations and careful control, the product can be obtained and the preparation method can be achieved.

Chemical Reactions & Modifications

The chemical response and denaturation of the reaction between Ethane - 1,2 - Disulfonic Acid and 2 - Chloro - 10 - [3 - (4 - Methylpiperazin - 1 - Yl) Propyl] - 10H - Phenothiazine (1:1) are very important. The two are combined, and the mechanism of the reaction is complicated. It is necessary to observe the changes in its molecular structure, such as bond breaking and formation, and atomic rearrangement.
To improve its chemical response, it is necessary to adjust the conditions of the reaction. If the temperature is overheated, the reaction will be too fast and the product will be impure; if it is too cold, the reaction will be slow and time-consuming. The pressure cannot be ignored, and the appropriate pressure can promote the reaction. And the choice of catalyst is also related to the efficiency of the reaction and the purity of the product. After careful conditioning, the reaction can be carried out as expected, the quality of the product can be improved, and the desired chemical denaturation can be achieved for subsequent use, or for scientific research or industrial preparation. All rely on this precise reaction regulation and qualitative optimization.

Synonyms & Product Names

Today there is a product called Ethane-1,2-Disulfonic Acid-2-Chloro-10- [3- (4-Methylpiperazin-1-Yl) Propyl] -10H-Phenothiazine (1:1). It is the same as the product name, and it is also the main point of our inquiry. This product is unique in the field of chemistry.
Ethane-1,2-Disulfonic Acid-2-Chloro-10- [3- (4-Methylpiperazin-1-Yl) Propyl] -10H-Phenothiazine (1:1), or there is a product name, or there is a well-known product name. We need to add a test to clarify the true appearance of the same product name. Both of these, either in ancient texts, or in modern research, we all need to search hard, seek comprehensive and accurate.
The research needs to be done by the group, not by force. Or by studying the ancient books, or seeking the previous information, in the hope of clarifying the relationship between this object and the product name, with the help of research, we can promote the development of the science, so that we can have a more in-depth study of this compound.

Safety & Operational Standards

Ethane - 1, 2 - Disulfonic Acid - 2 - Chloro - 10 - [3 - (4 - Methylpiperazin - 1 - Yl) Propyl] - 10H - Phenothiazine (1:1) This chemical is related to safety and operating standards, and should not be careless.
When handling this thing, the first thing to do is to maintain a quiet environment. Fireworks should be avoided around, and air should be well circulated to prevent the accumulation of dangerous atmospheres. When operating, wear complete protective equipment, such as protective clothing, protective gloves, and appropriate goggles to avoid damage to the body and eyes.
As for the method of storage, it should be placed in a cool and dry place, away from heat sources and fire. And it should be separated from other chemicals, especially avoid coexistence with oxidizing and reducing substances, to prevent unexpected chemical reactions from breaking out.
If you accidentally touch this object on the skin, you should immediately rinse it with a lot of water, and depending on the severity of the situation, seek medical treatment if necessary. If it enters the eye, you need to buffer it with water as soon as possible, and then go to the hospital urgently.
Furthermore, the operation process must follow the established norms. When taking it, measure it with a precise appliance, and do not increase or decrease it at will. After the operation is completed, all equipment needs to be properly cleaned to prevent residual damage.
When engaging in affairs related to this chemical, everyone should take safety into account and strictly abide by the operating norms, so as to be safe and avoid disasters.

Application Area

Ethane - 1,2 - Disulfonic Acid - 2 - Chloro - 10 - [3 - (4 - Methylpiperazin - 1 - Yl) Propyl] - 10H - Phenothiazine (1:1) This compound has a crucial application field. In the medical system, it may participate in the creation of certain drugs with its unique chemical conformation to deal with specific diseases. Looking at past medical research, compounds with this structure are often used in the treatment of neurological diseases. It may regulate the transmission of neurotransmitters and help in the treatment of emotional diseases such as depression and anxiety. In the chemical industry, it may be used as a catalyst for special reactions. By virtue of its own characteristics, it can promote the progress of specific chemical reactions and improve the purity and yield of products. These are all possible application fields, which need to be further studied by our generation to understand its exact utility and value.

Research & Development

Today there is a thing named Ethane - 1, 2 - Disulfonic Acid - 2 - Chloro - 10 - [3 - (4 - Methylpiperazin - 1 - Yl) Propyl] - 10H - Phenothiazine (1:1). As a chemical researcher, I have worked hard on the research and development of this thing.
Initially observe its properties, analyze its structure in detail, and hope to clarify its rationale. During experiments, measure repeatedly, observe the changes in its reaction, and record the details of its data. Ji can use various means to know the characteristics of this thing, or it can be used in industry, medicine, etc., to develop its function.
However, the research path is not smooth, and every time you encounter a problem, you need to think deeply and solve it. I often think of the sages of the ancient times, but I am not discouraged when I encounter difficulties, so I have perseverance and perseverance. I firmly believe that with time, in the study of this thing, I will make progress, contribute to the development of learning, add bricks and mortar, promote its use in the world, and benefit all people.

Toxicity Research

Research fragment on toxicity of a chemical substance (presented in classical Chinese form)
There is now a thing called Ethane - 1, 2 - Disulfonic Acid - 2 - Chloro - 10 - [3 - (4 - Methylpiperazin - 1 - Yl) Propyl] - 10H - Phenothiazine (1:1). Our generation takes toxicity research as its business and examines its properties in detail.
The toxicity of this thing is related to the health of living beings and cannot be ignored. To understand its impact on various organisms, such as insects, rats and dolphins. After observing its contact, the signs of the body change, the profit and loss of the viscera are observed, and the change of qi and blood is studied.
Hope to be able to learn the depth of toxicity and the urgency of the attack by means of detailed investigation, so as to provide evidence for future generations to use this thing or avoid its harm, so that people can use it, weigh the pros and cons, seek advantages and avoid harm, and protect the safety of all living beings. Do not let toxicity ravage and endanger living beings.

Future Prospects

Ethane - 1, 2 - Disulfonic Acid - 2 - Chloro - 10 - [3 - (4 - Methylpiperazin - 1 - Yl) Propyl] - 10H - Phenothiazine (1:1) This thing, although the current appearance has been determined, there are still countless opportunities for future development. Its unique nature may be able to bloom its brilliance in the field of medicine, heal various diseases, and save people from diseases. Or in the road of chemical industry, open up new ways and create extraordinary achievements. Although the road ahead is uncertain, we who are chemical researchers should have great ambitions, explore its subtleties with a fearless heart, and look forward to the future, so that we can develop our ultimate ability, become a cause for the world, and open an infinite new chapter for future generations. This is also where the high hope for the future lies.

Frequently Asked Questions

What is the main use of this product Ethane-1,2-Disulfonic Acid - 2-Chloro-10- [3- (4-Methylpiperazin-1-Yl) Propyl] -10H-Phenothiazine (1:1)

Ethane - 1,2 - Disulfonic Acid - 2 - Chloro - 10 - [3 - (4 - Methylpiperazin - 1 - Yl) Propyl] - 10H - Phenothiazine (1:1) This substance has a wide range of main uses. In the field of medicine, it is often used as a raw material for active pharmaceutical ingredients. Because of its chemical structure, it has the function of regulating specific physiological functions of the human body.
Because of its phenothiazine structure, it is often used as a key pharmacoactive group in the research and development of neurological drugs. 2-Chloro-10- [3- (4-methylpiperazine-1-yl) propyl] -10H-phenothiazine moiety may affect the transmission of neurotransmitters and receptor binding, and then be used to treat neurological diseases such as schizophrenia and bipolar disorder.
Furthermore, the ethane-1,2-disulfonic acid moiety may be helpful to the solubility and stability of drugs. It can improve the absorption, distribution, metabolism and excretion of drugs in the body, improve the overall efficacy of drugs, and reduce the adverse reactions of drugs to a certain extent. In addition, in the chemical industry, it can be used as a special additive for the synthesis and modification of certain materials to impart unique properties to the materials, such as improving their antistatic properties and stability.

What are the physical properties of Ethane-1,2-Disulfonic Acid-2-Chloro-10- [3- (4-Methylpiperazin-1-Yl) Propyl] -10H-Phenothiazine (1:1)

This is a compound of ethane-1,2-disulfonic acid and 2-chloro-10- [3- (4-methylpiperazine-1-yl) propyl] -10H-phenothiazine (1:1), which has many physical properties.
Looking at its properties, this compound is either solid at room temperature, or crystalline, with a specific color, or white, off-white, or with a slightly yellowish color. Its color is derived from factors such as the conjugate system in the molecular structure.
When it comes to solubility, due to the presence of sulfonic acid groups in the molecule, this is a hydrophilic group, so it should have a certain solubility in water, which can be partially or completely dissolved, and can form hydrogen bonds with water molecules and other interactions; and phenothiazine partially contains hydrophobic structures such as aromatic rings, so that it also has a certain solubility in organic solvents such as ethanol and acetone. According to the principle of similar dissolution, the degree of compatibility between the polarity of the organic solvent and the molecular structure affects the dissolution effect.
When it comes to the melting point, this compound is composed of specific atoms and chemical bonds to form a stable structure. It needs to absorb energy to break the lattice energy and promote the conversion of the solid state to the liquid state. The melting point is related to the intermolecular force. If the intermolecular force is strong, the melting point is high, and vice versa. The specific melting point can be accurately determined
The density, according to its molecular composition and packing method, in the solid state, due to the type, number and close arrangement of atoms, it has a specific density. This density is also related to the purity of the substance. If the purity is high, the density will be closer to the theoretical value.
The physical properties of this compound are of great significance for its application in chemical synthesis, drug development and other fields. A reasonable preparation process can be designed according to its solubility, and the purity can be judged by melting point and density, providing a solid basis for practical application.

What is the chemical stability of Ethane-1,2-Disulfonic Acid-2-Chloro-10- [3- (4-Methylpiperazin-1-Yl) Propyl] -10H-Phenothiazine (1:1)?

The chemical stability of these two is actually related to many aspects.
First of all, ethane-1,2-disulfonic acid, in its molecular structure, the sulfonic acid group ($- SO_ {3} H $) is connected to ethane. Sulfonic acid basically has strong polarity, and the sulfur atom is in a higher oxidation state, and the combination with ethane makes it more stable under common conditions. Because the sulfonic acid group can ionize hydrogen ions in water to form a stable sulfonate anion, the chemical bond energy between sulfur and oxygen atoms in this ionic structure is high, making the entire molecular structure difficult to be destroyed. Usually in the general acid-base environment, if there is no strong oxidant or special conditions, ethane-1,2-disulfonic acid can remain stable.
Looking at 2-chloro-10- [3- (4-methylpiperazine-1-yl) propyl] -10H-phenothiazine, the core structure of phenothiazine is composed of nitrogen, sulfur heterocyclic ring and benzene ring fused. The structure itself has a certain conjugation system, and the conjugation effect makes the electron cloud distribution of the molecule more uniform, which enhances the structural stability. However, the presence of chlorine atoms in its structure may have a certain impact. Although chlorine atoms have electron absorption, they can affect the electron cloud distribution of molecules to a certain extent, but in general environments, their connection with phenothiazine rings and side chains is relatively stable. The 4-methylpiperazine-1-ylpropyl moiety in the side chain is connected to the 10-position of phenothiazine, mainly through carbon-nitrogen and carbon-carbon single bonds, which are relatively stable under common conditions. However, if a strong nucleophilic reagent is encountered, the chlorine atom may be replaced, or in a strong oxidizing environment, the sulfur atom in the phenothiazine ring may be oxidized, thus affecting its stability.
Overall, these two have certain chemical stability under conventional temperature, pressure and general chemical environment, but under specific extreme conditions or the action of special reagents, the stability may change.

Safety precautions when using Ethane-1,2-Disulfonic Acid - 2-Chloro-10- [3- (4-Methylpiperazin-1-Yl) Propyl] -10H-Phenothiazine (1:1)

When using Ethane - 1, 2 - Disulfonic Acid - 2 - Chloro - 10 - [3 - (4 - Methylpiperazin - 1 - Yl) Propyl] - 10H - Phenothiazine (1:1), there are many safety precautions to be paid attention to. This is a fine chemical substance, and its nature is complex. When handling, be careful.
Bear the brunt of it, protective equipment is essential. Wear special protective clothing, which can resist its possible erosion. Also wear protective gloves, which are tough and can prevent them from contacting the skin. Facial protection should not be underestimated. The protective cover can protect the eyes from splashing and injury.
Furthermore, the operating environment must be cautious. Work in a good place. If the passage is not smooth, the volatile body will accumulate, or cause discomfort, or even poisoning. And there should be no fire or heat sources around, because it may be flammable. If it is encountered, it will cause an instant disaster and cause a catastrophe.
Repeat, storage is also exquisite. It should be placed in a cool, dry place, away from direct sunlight. If it is damp and heated, its nature may change, which will not only affect the efficacy, but may also become dangerous. And it should be placed separately from other chemicals to prevent mutual reactions and accidents.
Finally, after the operation is completed, the cleaning should not be done. Used utensils must be properly cleaned, and the residue should not be neglected. The working area should also be cleaned to ensure that there is no residue. If there is any accidental contact, it should be rinsed with a large amount of water immediately, and if the situation is serious, seek medical attention immediately. In this way, it can ensure the safety of use.

What is the approximate price range for Ethane-1,2-Disulfonic Acid - 2-Chloro-10- [3- (4-Methylpiperazin-1-Yl) Propyl] -10H-Phenothiazine (1:1)?

I don't know what the market value of "Ethane - 1,2 - Disulfonic Acid - 2 - Chloro - 10 - [3 - (4 - Methylpiperazin - 1 - Yl) Propyl] - 10H - Phenothiazine (1:1) " is. However, in "Tiangong", there is no such synthesis of refined materials. Because it was made in the Ming Dynasty, it involved a lot of work and manual skills, and it was not as good as this generation of synthetic materials. Therefore, the method of "Tiangong" is used to answer this. If you want to know the market value of this product today, it is appropriate to replace it with a raw material trading market, a chemical product market, and so on. Only by checking it can you get its general price, or a chemical industry.