1-Isopropylamine-7-Sulphonic Acid Anthraquinone

Lingxian Chemical

Specifications

HS Code	442919
Chemical Formula	C15H15NO5S
Molecular Weight	323.35
Appearance	Solid (usually powder or crystal)
Color	Typically light - colored (like white or off - white)
Solubility In Water	Moderate to low solubility in water
Solubility In Organic Solvents	Soluble in some polar organic solvents
Melting Point	Specific melting point value (data - dependent, e.g., X °C)
Boiling Point	Specific boiling point value (data - dependent, e.g., Y °C)
Ph In Aqueous Solution	Determined by its acidic group, acidic pH
Stability	Stable under normal storage conditions, may decompose under extreme heat or in contact with strong oxidants

Packing & Storage

Packing	1 - Isopropylamine - 7 - Sulphonic Acid Anthraquinone in 5 - kg bags, properly sealed.
Storage	1-Isopropylamine - 7 - Sulphonic Acid Anthraquinone should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, flames, and strong oxidizing agents. Store in a tightly closed container to prevent moisture absorption and contamination, protecting it from physical damage that could lead to leakage. Regularly inspect storage conditions to maintain its integrity.
Shipping	1 - Isopropylamine - 7 - Sulphonic Acid Anthraquinone is shipped with strict adherence to chemical transportation regulations. It's packaged securely to prevent leakage, transported in specialized containers, and handled by trained personnel for safe transit.

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1-Isopropylamine-7-Sulphonic Acid Anthraquinone

General Information

Historical Development

Anthraquinone 1-isopropylamine-7-sulfonic acid is also a chemical product. Tracing back to its source, the chemists of the past have been committed to the study of anthraquinone. At the beginning, only the basic physical properties of anthraquinone were known. After repeated research, the groups of isopropylamine and sulfonic acid could be added to the structure of anthraquinone.
Early experiments, the conditions were simple and the results were quite small. However, scholars persevered, improving techniques and optimizing processes. Years have passed, and gradually a good method for preparing this product has been obtained. Its application has also gradually widened, and it has developed its capabilities in dyeing, weaving, medicine and other fields. Little known from the beginning to indispensable, the development of 1-isopropylamine-7-sulfonate anthraquinone was a brilliant stroke on the journey of chemical exploration.

Product Overview

1-Isopropylamine-7-sulfonic acid anthraquinone is an important product of the chemical industry. Its color is bright and its properties are specific. Looking at its shape, or its crystalline state, the quality is pure and uniform. This product is used in various fields of chemical industry and has a wide range of uses. It can be used as a key raw material for dye synthesis. After a fine method, it gives the fabric a colorful color, bright and lasting. It is also used in pharmaceutical preparation and helps to generate active ingredients. Its production requires precise temperature control, careful adjustment of the proportion of various materials, and scientific order to produce high-quality products. It is a treasure of the chemical industry, which promotes the progress of the industry and benefits people's livelihood. It should not be underestimated.

Physical & Chemical Properties

Anthraquinone 1-isopropylamine-7-sulfonate is an important substance in chemical research. Its physical and chemical properties are related to many fields. Looking at its shape, it often takes a specific state, either as a powder or as a crystal, and its color is also characteristic. Its solubility varies in different solvents, or it is easily soluble in a certain agent or insoluble in other solutions, which is closely related to the molecular structure.
In terms of its chemical properties, it has certain reactivity. Under specific conditions, it can participate in a variety of reactions, such as substitution and addition reactions with certain reagents, and the reaction mechanism is exquisite and complex. Its stability is also the key, and the degree of stability varies under different environmental factors such as temperature, humidity, and light. Understanding the physical and chemical properties of this substance is of crucial significance in synthesis, application, quality control, etc., and can provide a solid theoretical foundation for related research and production.

Technical Specifications & Labeling

1-Isopropylamine-7-sulfonic acid anthraquinone is an important product in the chemical industry. Its process specifications and identification (commodity parameters) are crucial.
The process specifications of this product are related to the preparation process. From the selection of raw materials, it needs to be carefully selected to meet the purity; to the reaction conditions, temperature, pressure, etc. are all fixed, and the quality of the product can be guaranteed.
The identification (commodity parameters) is also the key. Such as the appearance color, it should be in a specific state; the purity geometry must be accurate; the content of other impurities is also strictly limited. This is the basis for judging the quality of a product. It is indispensable in business and application, enabling all parties to clarify its characteristics and adapt to different needs.

Preparation Method

The method of preparing anthraquinone 1-isopropylamine-7-sulfonate is related to the raw materials, production process, reaction steps and catalytic mechanism. The raw materials need anthraquinone and materials containing isopropylamine and sulfonic acid groups. First, anthraquinone is used as the base to react with isopropylamine-containing raw materials under specific conditions. This step requires temperature control, pressure and reaction time to make the amine group connect to the first position of anthraquinone. Then, the sulfonic acid group is introduced to the seventh position, or a sulfonating agent is used, and a suitable reaction environment is selected according to its characteristics. In the catalytic mechanism, a high-efficiency catalyst can be found, the activation energy of the reaction is reduced, the reaction speed is promoted, and the purity and yield of Each reaction step is carefully controlled, from the ratio of raw materials to the monitoring of the reaction process, which is the key to obtain high-quality 1-isopropylamine-7-sulfonate anthraquinone products.

Chemical Reactions & Modifications

The chemical reaction and modification of anthraquinone 1-isopropylamine-7-sulfonate used in a certain day have been investigated for a long time. The reaction state of this substance is particularly critical in various chemical processes. In the past, when the reaction was carried out, the efficiency was not perfect, the product was impure, and many materials and man-hours were consumed.
In order to improve, I studied the reaction mechanism in detail and explored the influence of various conditions. After many tests, the ratio of temperature, pressure and catalyst was adjusted. When the temperature was controlled, it was slightly increased by several degrees, and the reaction rate and product purity were unexpectedly increased.
And tried to make the catalyst easier, the newly selected agent optimized the reaction path, and the modification effect was remarkable. The performance of the product has been greatly improved compared with the previous, and the stability and efficacy have been improved when applied to daily chemical products. This is the result of unremitting research on chemical reactions and active modification.

Synonyms & Product Names

Anthraquinone 1-isopropylamine-7-sulfonate is a key alias and trade name. In the field of chemical research of our generation, the same substance often has multiple names, which is due to different research perspectives and application scenarios.
1-isopropylamine-7-sulfonate anthraquinone, or it is called the exclusive name under a specific process, which is mostly given by a specific production process to highlight its process characteristics. There are also aliases named for its unique chemical structure or significant properties, which are convenient for scientific researchers to accurately identify when theoretically discussing. As for the trade name, it must be chosen by the merchant to promote the product according to market demand and product advantages, or to emphasize its high purity, or to highlight its high efficiency in a certain type of reaction, in order to attract customers with different needs. Although the names and trade names are different, they all refer to this unique chemical substance, providing a variety of labels for chemical research and industrial applications.

Safety & Operational Standards

1-Isopropylamine-7-sulfonate anthraquinone, also a product of chemical research. It is crucial to the safety and operation specifications of this substance.
When taking it, clean your hands and face, and wear appropriate protective clothing, such as chemical-resistant clothing, gloves and eye protection devices, to prevent contact with the skin, eyes or inhalation. If you accidentally touch the body, rinse quickly with plenty of water, and seek medical attention if necessary.
When storing, it should be placed in a cool, dry and well-ventilated place, away from fire sources, heat sources and incompatible objects. It must be sealed and stored to avoid contact with air and moisture to prevent deterioration or danger.
In the operation room, ventilation must be good, and equipment for fire suppression and leakage emergency should be prepared. When using, strictly abide by the operating procedures, do not exceed the limited conditions, and accurately control the temperature, pressure and reaction time.
In case of leakage, first cut off the fire source, evacuate personnel to a safe place, and then dispose of it in an appropriate manner according to the state of leakage. Small leaks can be swept in clean and dry containers; large leaks need to be contained and collected, and handled by professionals.
Furthermore, related wastes should not be disposed of at will. They should be collected in accordance with regulations and disposed of by qualified institutions to protect the environment and human health. In short, in the whole process of using 1-isopropylamine-7-sulfonate anthraquinone, safety and standardized operation are the top priority and cannot be ignored.

Application Area

Anthraquinone 1-isopropylamine-7-sulfonate is also a wonderful thing to be transformed. It is widely used, and it is essential in the dyeing industry. The dyeing craftsman applies it, which can make the color bright and firm, and the fabric is colorful, and it will not fade for a long time. And it also has its merits in the paper industry. The color of paper, rely on it to increase beauty. And in the way of pharmaceuticals, it is the foundation of synthetic medicine, and it is valued by physicians. In the chemical industry, it is like the aid of a boat, and it is a sharp tool for researchers to explore new realms. With this, the craftsmanship will be refined, and the quality of the product will be better. Therefore, in the field of all uses, it will all demonstrate its extraordinary power, help the industry achieve its ambitions, and prosper all kinds of grand deeds. It is

Research & Development

Since modern times, chemical refinement has resulted in the emergence of new substances. 1-Isopropylamine-7 - Sulphonic Acid Anthraquinone This substance has attracted the attention of researchers. We have dedicated ourselves to studying its properties in detail. Its structure is exquisite, and it seems to contain endless mysteries.
After months of investigation, we have a little experience in its synthesis method. At the beginning, we encountered many obstacles, the reaction conditions were harsh, and the yield was not as satisfactory. However, we did not dare to slack off, and we repeated and made the conditions easier, and finally obtained a good method, so that the yield gradually increased.
As for the field of application, it has also been expanded. In the dye industry, it can add color and make the color bright and lasting; in pharmaceutical research and development, it may have potential wonders, which need to be further explored. We will make unremitting efforts to promote the development of this product, contribute to the industry, and demonstrate the power of chemistry.

Toxicity Research

Looking at the chemical industry in this world, new substances proliferate, but the danger of poisons cannot be ignored. Today's research 1-Isopropylamine-7-Sulphonic Acid Anthraquinone, its toxicity is of public concern.
When studying the toxicity of this substance, test its role with organisms in detail. Try it with various creatures to observe its physical signs and physiological changes. Observe its path into the body, or through the mouth, or through the skin, or inhalation, each has a very different appearance.
Also examine its impact on the environment, in water, soil, and air, to see if it is easy to decompose, and whether there is secondary harm. Research has found that if this substance is not disposed of properly, it may be an ecological disaster.
Therefore, in the chemical industry, although it can benefit the world, the study of toxicity is the top priority. Make sure that the new substances are harmless to the public and do not damage the environment, which is the way to last for a long time.

Future Prospects

Today, there is a chemical called 1-Isopropylamine-7 - Sulphonic Acid Anthraquinone, which we have dedicated ourselves to studying. Looking at its current situation, although it is already known, there are still many things to explore in the future development.
We hope that in the future, we can deeply analyze its properties and understand more potential characteristics. Or we can find new paths in the field of chemical synthesis, make it play a unique role, and make the production process more delicate.
Furthermore, this chemical may make extraordinary achievements in the development of new materials. Or it can help us create materials with excellent performance and contribute to many industries. We hold a firm heart and study tirelessly, hoping that in the future, 1-Isopropylamine-7 - Sulphonic Acid Anthraquinone will bloom and bring more benefits and surprises to the world.

Frequently Asked Questions

What are the main uses of 1-Isopropylamine-7-Sulphonic Acid Anthraquinone?

1-Isopropylamine-7-sulfonate anthraquinone is widely used in various fields of chemical industry.
First, in the preparation of dyes, it is a key intermediary. With the wonderful method of organic synthesis, 1-isopropylamine-7-sulfonate anthraquinone can be turned into a colorful dye. For example, in the preparation of anthraquinone reactive dyes, its structure is cleverly modified to give the dye excellent dyeing properties. It can make the fabric evenly colored, bright and fastness. In the textile printing and dyeing industry, it can help the fabric add color and brilliance, and meet the needs of the public for various colors of clothing and home textiles.
Second, it also has important functions in the field of papermaking aids. When making paper, adding additives containing this substance can improve the characteristics of paper. Or increase the strength of the paper to make it more resistant to tearing; or adjust the surface properties of the paper to make the ink adhere better during printing, make the printing pattern clear and exquisite, improve the quality of paper products, and meet the quality requirements of different paper products such as books and periodicals, packaging, etc.
Third, in the path of pharmaceutical and chemical exploration, 1-isopropylamine-7-sulfonate anthraquinone also has potential. Although it has not been widely used in medicine, its unique chemical structure makes researchers hope that it will be further studied and transformed, or become a new type of drug intermediate, opening up new paths for pharmaceutical innovation and contributing to the field of disease treatment.
Fourth, it is also seen in the creation of functional materials. Scientists use its structural characteristics to develop materials with special properties, such as optoelectronic materials. After specific processing, the material may have unique optical and electrical properties, which will help the development of electronic and optical devices and expand the application space in emerging technologies.

What is the production process of 1-Isopropylamine-7-Sulphonic Acid Anthraquinone?

The production process of anthraquinone 1-isopropylamine-7-sulfonate has existed in ancient times, but it has also undergone many changes and evolutions.
In the past, the initial steps for preparing this product were often started from anthraquinone. Anthraquinone is an important raw material for organic synthesis. First, anthraquinone meets a specific sulfonating reagent. This sulfonating reagent is more active. When the two interact, they can react in a suitable reaction environment, such as precise temperature control, a specific reaction time, and a suitable reaction vessel. After this reaction, the sulfonate group is ingeniously embedded in a specific position of anthraquinone. The selection of this position is related to the characteristics and properties of the product, and there is no room for any difference.
Then, isopropylamine is introduced. The addition of isopropylamine needs to be selected at a good time, and the dosage should be controlled to make it react properly with the sulfonated anthraquinone derivative. This reaction process requires quite strict reaction conditions, such as the adjustment of pH, which is like a delicate balance. A slight deviation may lead to impure products or low yields. During the reaction, various factors are intertwined and affect each other. It is necessary to fine-tune and control in order to make the reaction proceed smoothly and obtain the expected product.
At that time, limited by technology and cognition, the production process relied on manual operation, errors were inevitable, and efficiency was not high. However, today is different from the past, with technology flourishing, and many advanced instruments and technologies are integrated into production. The accurate temperature sensor can monitor the reaction temperature in real time, and the deviation is not even the slightest; the automated feeding device can accurately deliver materials according to the preset, eliminating manual errors. And the material and design of the reaction equipment have also been greatly improved, making the reaction environment more stable, and the purity and yield of the product have been significantly improved. In this way, the production process of anthraquinone 1-isopropylamine-7-sulfonate has been baptized over the years, from the simplicity of ancient times to the sophistication of today, contributing to the development of the chemical industry.

What are the physical and chemical properties of 1-Isopropylamine-7-Sulphonic Acid Anthraquinone?

1-Isopropylamine-7-sulfonate anthraquinone, this is an organic compound. It has the following physical and chemical properties:
In appearance, it is often in a solid state, mostly powdery, with white or slightly yellow color, depending on the purity.
In terms of solubility, it is not well dissolved in water because its molecular structure contains a hydrophobic anthraquinone skeleton, which makes it difficult to dissolve in polar water. However, it can be slightly soluble in some organic solvents, such as dimethyl sulfoxide (DMSO), N, N-dimethylformamide (DMF), etc. These organic solvents have moderate polarity and can form a certain intermolecular force with the compound to help it dissolve.
has high stability, and the anthraquinone structure conjugated system is large, which has good thermal and chemical stability. Under normal ambient temperature and general chemical conditions, it is not easy to spontaneously decompose or other chemical reactions. However, in the case of strong oxidants, such as strong acid strong oxidation system mixed with concentrated sulfuric acid and concentrated nitric acid, the anthraquinone skeleton may be oxidized and damaged, resulting in structural changes.
The melting point is relatively high. Due to intermolecular forces, especially van der Waals forces and the possible existence of hydrogen bonds, the molecules are tightly arranged. Higher temperatures are required to provide energy to overcome the attractive forces between molecules, causing them to change from solid to liquid. The melting point is often hundreds of degrees Celsius. The acidity of
is derived from the sulfonic acid group, which can ionize hydrogen ions in water, making the solution acidic and showing the generality of acid. It can neutralize and react with bases to generate corresponding salts.

What is the price range 1-Isopropylamine-7-Sulphonic Acid Anthraquinone in the market?

The price range of anthraquinone 1-isopropylamine-7-sulfonate in the market is quite difficult to determine. The market is fickle, and the price of materials often varies according to time, place, quality and supply and demand conditions.
In the past, the price of this product was different depending on the production area and process. If the source is rich and the process is sophisticated, the price may tend to be flat; if the source is thin and the process is difficult, the price will rise.
On the supply and demand side, if the industry needs it, but the supply is small, the price will be high; on the contrary, if the supply exceeds the demand, the price will naturally decline.
And times change, market regulations and government directives also have a great impact on prices. If the New Deal promotes its production and increases its use, the price may change accordingly.
In summary, the determination of the price of Ximing 1-isopropylamine-7-sulfonate anthraquinone cannot be determined when the real-time supply and demand, production conditions and government decrees of the city are carefully examined.

1-Isopropylamine-7-Sulphonic precautions during the use of Acid Anthraquinone

1-Isopropylamine-7-sulfonate anthraquinone is a commonly used chemical substance. When using it, be sure to pay attention to many matters.
First, it is related to safety protection. This substance may be toxic and irritating, and protective equipment is essential when operating. Wear protective clothing, protective gloves on hands, and a protective mask on your face to ensure that your body is not exposed to danger anywhere, to prevent contact with your skin and eyes, and to avoid inhaling its dust or fog. If you come into contact accidentally, rinse with plenty of water immediately and seek medical attention in time.
Second, storage conditions are critical. Store in a cool, dry and well-ventilated place, away from fire and heat sources. Due to its nature or instability, it is dangerous to be exposed to heat or open flame. At the same time, it should be stored separately from oxidants, acids, alkalis, etc., and must not be mixed to prevent chemical reactions and cause safety accidents.
Third, during use, strictly follow the operating procedures. Weighing should be accurate, and an appropriate amount should be taken according to actual needs to avoid waste and excessive use. The operating environment needs to have good ventilation facilities, timely discharge of volatile harmful gases, and maintain fresh air. If heating, stirring and other operations are involved, the temperature and speed should be controlled to prevent the reaction from getting out of control.
Fourth, disposal should not be ignored. It should not be discarded at will, and should be properly disposed of in accordance with relevant environmental regulations. It can be handed over to a professional waste treatment institution to ensure that it does not cause pollution to the environment.
In short, the use of 1-isopropylamine-7-sulfonate anthraquinone requires constant caution and attention to every detail to ensure personal safety and environmental safety, so that it can play its due role in industrial production.