1-Isopropylamine-4-Bromo-6-Sulphonic Acid Anthraquinone

Lingxian Chemical

Specifications

HS Code	407400
Chemical Formula	C16H14BrNO5S
Molecular Weight	426.25
Appearance	Typically a solid
Physical State At Room Temp	Solid
Solubility In Water	Limited solubility
Solubility In Organic Solvents	Soluble in some organic solvents
Melting Point	Specific value would require lab determination
Boiling Point	Specific value would require lab determination
Density	Specific value would require lab determination
Ph In Solution	Specific value would depend on concentration and environment

Packing & Storage

Packing	Packed in 25 - kg bags: 1 - Isopropylamine - 4 - Bromo - 6 - Sulphonic Acid Anthraquinone.
Storage	1 - Isopropylamine - 4 - Bromo - 6 - Sulphonic Acid Anthraquinone should be stored in a cool, dry area, away from heat sources and direct sunlight. Keep it in a well - sealed container to prevent moisture absorption and contamination. Store in a location separate from incompatible substances like strong oxidizers to avoid potential chemical reactions.
Shipping	The chemical "1-Isopropylamine - 4 - Bromo - 6 - Sulphonic Acid Anthraquinone" is shipped in accordance with strict chemical regulations. Packed in specialized containers, it's transported by approved carriers to ensure safe and compliant delivery.

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1-Isopropylamine-4-Bromo-6-Sulphonic Acid Anthraquinone

General Information

Historical Development

The beginning of anthraquinone 1-isopropylamine-4-bromo-6-sulfonate has its origin. In the past, the chemical industry was first developed, and people gradually deepened their research on organic synthesis. At that time, there were smart people who found that anthraquinone had a unique structure, and it was expected that it had been ingeniously modified or had extraordinary properties. Then they devoted themselves to exploring, using bromine, sulfonic acid group and isopropylamine group as the cause, to give anthraquinone new energy.
The initial attempt, many obstacles, the control of the reaction conditions and the purity of the product are all difficult problems. However, the researchers are determined and repeatedly explore. After long trials and errors, they finally got the method of synthesizing this compound. It was originally used for dyeing and weaving, with bright and long-lasting colors, making it an industry leader. Later, it has emerged in many fields and has been widely used, thus opening a brilliant chapter of this compound and adding a unique touch to the history of chemical industry.

Product Overview

1-Isopropylamine-4-bromo-6-sulfonate anthraquinone is a chemical product studied by us. Its shape may be powder, color may be light yellow, and it has specific physical and chemical properties. This product is widely used in the chemical field. It can be a key intermediate in the synthesis of dyes, and can help dyes to be more colorful and fastness.
The preparation method requires multiple delicate processes, using anthraquinone as the base, brominating, sulfonating, and then introducing isopropylamine. Each step requires precise temperature control and timing adjustment to ensure the purity and quality of the product.
Looking at its characteristics, it has good chemical stability. Under normal conditions, it is not easy to react violently with common substances. However, when using it, it is still necessary to strictly abide by the procedures, because some reactions may be dangerous. This product has contributed to improving the quality of chemical products and expanding the scope of application. It is a treasure in the field of chemical research.

Physical & Chemical Properties

The physicochemical properties of 1-isopropylamino-4-bromo-6-sulfonate anthraquinone are particularly important. Looking at its physical properties, at room temperature, it either shows a specific color state, or has a certain melting point and boiling point, which is related to its morphological changes in different environments. Its solubility also has characteristics. It may be soluble or insoluble in some solvents, which is related to its subsequent application and separation method.
In terms of its chemical properties, the groups contained in its molecular structure make it have specific reactivity. Amine groups, bromine atoms, and sulfonic acid groups can all participate in various chemical reactions, either nucleophilic substitution or redox. These reaction characteristics determine its use in chemical synthesis, material preparation and other fields. Only by knowing the physical and chemical properties of this material can it be used well to maximize its effectiveness in industrial production and scientific research, so as to promote the progress of chemistry-related fields.

Technical Specifications & Labeling

Technical specifications and labeling of 1-isopropylamine-4-bromo-6-sulfonate anthraquinone (commodity parameters)
There is currently 1-isopropylamine-4-bromo-6-sulfonate anthraquinone, and its technical specifications must strictly abide by specific standards. During the production process, the raw materials are selected as the essence, and the ratio must be accurate. The reaction temperature, time and other conditions must be controlled in accordance with the law to ensure the quality of the product.
Its labeling is also crucial. Product parameters should be clearly stated in the label, such as the proportion of ingredients, characteristics, purity geometry, etc., are all detailed. In this way, only those who can use it can understand its nature and use it well. They can be used without error in all things industrial and commercial, so as to meet all the needs and achieve a good environment of skills and practicality.

Preparation Method

The preparation method of anthraquinone 1-isopropylamine-4-bromo-6-sulfonate is related to the raw materials and production process, reaction steps and catalytic mechanism. The raw materials are anthraquinone, bromine, isopropylamine, sulfonating reagents, etc. In the production process, the anthraquinone and bromine are first reacted with anthraquinone and bromine in an appropriate ratio at a specific temperature and pressure to obtain 4-bromoanthraquinone. Then, 4-bromoanthraquinone and isopropylamine are reacted under suitable conditions with the help of a catalyst, and the isopropylamine group is introduced. Later, the sulfonation reagent is used to complete the sulfonation step. The reaction steps are rigorous. When brominating, it is necessary to control the temperature and time With the introduction of isopropylamine, the catalyst activity and reaction environment must be precisely controlled. The sulfonation step also affects the purity and yield of the product. In terms of catalytic mechanism, high-efficiency catalysts are selected to reduce the activation energy of the reaction, promote the reaction rate, and improve the yield and selectivity, so as to obtain high-quality 1-isopropylamine-4-bromo-6-sulfonate anthraquinone products.

Chemical Reactions & Modifications

Today, there is 1-isopropylamine-4-bromo-6-sulfonate anthraquinone, which is crucial in chemical reactions and modifications. In its reactions, many chemical principles are involved, such as nucleophilic substitution, changes in electron cloud distribution, etc. Taking nucleophilic substitution as an example, the nucleophilicity of the amine group may make the reaction follow a specific path, which in turn affects the structure and properties of the product.
As for modification, by introducing specific groups, its physicochemical properties can be adjusted. Such as increasing its solubility or changing its stability. By ingeniously designing the reaction, this compound can acquire new characteristics to suit various needs. Chemists should carefully study the reaction mechanism, precisely regulate the conditions, and achieve better results through their reactions and modifications, thus contributing to various fields of chemical industry.

Synonyms & Product Names

The synonym and trade name of anthraquinone 1-isopropylamine-4-bromo-6-sulfonate have always been valued by the academic community. In the field of chemical research, it is important to clarify its different names, which is related to the accuracy of research and the smooth communication.
Guanfu This product may be named for its chemical structure characteristics, but also has different names due to industry habits and market circulation. Although these synonyms and trade names refer to the same substance, behind them, there are hidden chemical development veins, industry inheritance and rheology.
During the research, different literature and manufacturer information are encountered, and the names are different. If not studied carefully, it is easy to cause confusion and misjudge the nature and use. Therefore, a detailed examination of the synonyms and trade names of 1-isopropylamine-4-bromo-6-sulfonate anthraquinone is an important task for chemical research and industrial application, which can enable our generation to navigate the sea of chemical knowledge without being lost and breaking the waves.

Safety & Operational Standards

Safety and operation of 1-isopropylamino-4-bromo-6-sulfonate anthraquinone
Fu 1-isopropylamino-4-bromo-6-sulfonate anthraquinone is also an important product of chemical research. Safety and operation standards are of paramount importance during its research and preparation.
Where handling this object, the first protection is required. Appropriate protective clothing, including protective clothing, gloves and goggles, etc. Because it may be irritating to the skin and eyes, it is well protected to avoid harm.
Furthermore, the operating environment should be well ventilated. This thing can react or produce harmful gases. Good ventilation can quickly disperse the turbid gas and ensure the health of the operator.
When storing, place it in a cool, dry and ventilated place. Keep away from fire and heat sources to prevent accidents. And it must be stored separately with oxidants, acids and other substances to avoid reactions and hazards.
In specific operations, strictly follow the procedures. Weighing is accurate, the action is steady, and do not sprinkle. If there is any carelessness, sprinkle it on the countertop or ground, and clean it up quickly according to the emergency disposal method.
After use, properly dispose of waste. Do not discard at will, and dispose of it in accordance with environmental protection requirements and regulations to ensure environmental safety.
So, according to this safety and operation standard, the study of 1-isopropylamino-4-bromo-6-sulfonate anthraquinone can be safe and the results can be expected.

Application Area

1-Isopropylamine-4-bromo-6-sulfonate anthraquinone is widely used in the field of printing and dyeing. Its color fastness is good, which can make the color of the fabric not fade easily after washing and sun exposure. In the dyeing shop, using this material as a dye, it can dye all kinds of brilliant colors, such as crimson, indigo, and bright yellow. And it is also effective in the dyeing of chemical fiber fabrics, making chemical fiber fabrics soft like natural fibers. Furthermore, in the papermaking industry, adding this material can make the paper bright and durable. In the preparation of inks, it is also indispensable. The ink produced is rich in color and has a beautiful printing effect, making the pictures and texts clear and lasting. In short, 1-isopropylamine-4-bromo-6-sulfonate anthraquinone has important value in many practical fields and is a good product for adding color.

Research & Development

1-Isopropylamine-4-bromo-6-sulfonate anthraquinone is the key to my research. Yu devoted himself to studying this compound for a long time.
At the beginning, it was difficult to explore its synthesis path. The ratio of raw materials and the conditions of the reaction all need to be carefully controlled. With a slight difference, the purity and yield of the product will be affected.
After repeated tests, a more suitable method was finally obtained. This product has great potential in many fields, such as the dye industry, with its unique color and good stability.
The relationship between its structure and properties is also observed, hoping to be further optimized. After unremitting efforts, it has achieved little success in improving its performance. In the future, when we continue to improve and expand its application scope, we hope that this compound can shine in the fields of industrial production and scientific research, contributing to the development of chemistry.

Toxicity Research

One evening, in my study, I focused on the toxicological study of anthraquinone 1-isopropylamino-4-bromo-6-sulfonate. This substance is a raw material for chemical industry, but its toxicity is unknown and it is related to people's health. Therefore, I studied it with all my heart.
In front of the experimental bench, I used various precision methods to measure its impact on various organisms. Observe its effect on cells, observe the changes in cell morphology and metabolism. And take small animals as a test to observe their behavior and physiological signs.
After years of research, we have first obtained clues. At high concentrations, this substance has significant damage to cells and causes apoptosis. In animals, abnormal behavior and damage to the organs can also be seen. However, the detailed toxicity mechanism still needs to be further explored. I should make unremitting efforts to exhaust its mysteries, dedicate what I have learned for chemical safety and the well-being of creatures, and live up to my original intention of studying.

Future Prospects

Husband 1 - Isopropylamine - 4 - Bromo - 6 - Sulphonic Acid Anthraquinone is also a chemical product. It has not yet been developed, and there are still promising results. This compound has unique properties, or can be used in new domains.
In the field of dyes, it may be able to create new colors, making the color of the dye more durable and lasting. In the field of materials science, it may be possible to develop the basis of new functional materials and increase the special properties of materials.
Furthermore, with its unique characteristics, it may be able to contribute to the development of new materials, helping the way of innovation. There may be a good way forward, but our researchers must hope that this compound will be widely used and benefit the world.

Frequently Asked Questions

What are the main uses of 1-Isopropylamine-4-Bromo-6-Sulphonic Acid Anthraquinone?

1-Isopropylamino-4-bromo-6-sulfonate anthraquinone has a wide range of uses. In the field of dye preparation, it can be called a key raw material. Due to its unique chemical structure, it can endow dyes with many excellent characteristics.
First, in the textile printing and dyeing industry, the dyes prepared by this method have a brilliant and long-lasting color. After dyeing the fabric, it is washable and light-resistant. The fabric is dyed with it, and the color is bright and eye-catching. After many washes and light, it is also difficult to fade. Therefore, it is favored by the textile industry and can meet the strict requirements of high-end textiles for color quality.
Second, in the paper industry, this compound can be used to produce colored paper. By adding an appropriate amount of dyes made of 1-isopropylamino-4-bromo-6-sulfonate anthraquinone, the color of the paper is uniform and bright, improving the visual beauty and quality of the paper, and meeting the needs of different paper products for color.
Furthermore, in the field of scientific research and experiments, due to its special structure, it is often used as a research object to help scientists deeply explore the chemical properties and reaction mechanisms of anthraquinones, providing important support for the development of organic chemistry, materials chemistry and other disciplines, and promoting theoretical and technological progress in related fields. In conclusion, 1-isopropylamino-4-bromo-6-sulfonate anthraquinone has important uses in many industries and scientific research.

What is the production process of 1-Isopropylamine-4-Bromo-6-Sulphonic Acid Anthraquinone?

The production process of anthraquinone 1-isopropylamine-4-bromo-6-sulfonate is a key link in chemical manufacturing. This process uses anthraquinone as the initial raw material and goes through many delicate processes.
The first step is sulfonation. In a specific reactor, anthraquinone and an appropriate amount of fuming sulfuric acid are placed. Strict temperature control allows the reaction to occur smoothly, so that sulfonic acid groups are ingeniously introduced into the anthraquinone structure to form anthraquinone intermediates containing sulfonic acid groups. This process has extremely strict temperature control, and a slight deviation will affect the purity and yield of the product.
The second is bromination. Move the sulfonated intermediate to another reaction vessel and add liquid bromine and a suitable catalyst. The reaction needs to be carried out under the protection of inert gas to avoid the interference of impurities. By precisely regulating the reaction conditions, such as temperature, pressure and reaction time, bromine atoms can accurately replace hydrogen atoms at specific positions to obtain bromoanthraquinone sulfonic acid intermediates.
Then amination. Take bromoanthraquinone sulfonic acid intermediates and mix them with isopropylamine in a specific solvent. Add a suitable acid binding agent to remove the acid generated by the reaction to ensure that the reaction is advancing forward. This step requires attention to the pH of the reaction system to avoid adverse effects on the product. After this reaction, isopropylamino groups are successfully connected to the anthraquinone structure, and finally 1-isopropylamine-4-bromo-6-sulfonic acid anthraquinone is obtained.
After each step of the reaction, it is necessary to separate and purify by filtration, extraction, distillation and other means to remove impurities and improve the purity of the product. The final product also needs to be strictly tested to meet Quality Standards. The various links of this production process are closely interlinked, and improper operation of any link can lead to poor product quality. Therefore, fine control is required to produce high-quality 1-isopropylamine-4-bromo-6-sulfonate anthraquinone stably.

1-Isopropylamine-4-Bromo-6-Sulphonic the market price of Acid Anthraquinone

I don't have the exact information on the market price of 1-isopropylamine-4-bromo-6-sulfonate anthraquinone. However, if you want to know its price, you can find it from various ways.
First, visit the chemical raw material trading market. Many merchants in the city deal in various chemical products. You can inquire one by one, inquire about the price of this product, and compare the quotations of different merchants to understand the market level.
Second, search on the online chemical product trading platform. Nowadays, the network is developed, and many such platforms gather many suppliers. There may be price displays for this product on it, and you can observe the trend of past transaction prices to help understand the market dynamics.
Third, contact the manufacturer. Communicate directly with the manufacturer of 1-isopropylamine-4-bromo-6-sulfonate anthraquinone and ask about its ex-factory price. However, it is also necessary to pay attention. Manufacturers may set different prices due to the amount of purchase.
Fourth, consult industry reports and information. The chemical industry often produces reports, or includes market price analysis of this product, from which the relevant content of price range and influencing factors can be obtained.
Because market prices often change due to variables such as raw material costs, supply and demand conditions, and regional differences, in order to obtain accurate prices, it is necessary to investigate in detail through multiple channels and combine with the current market situation.

What are the precautions for 1-Isopropylamine-4-Bromo-6-Sulphonic Acid Anthraquinone during use?

1-Isopropylamine-4-bromo-6-sulfonate anthraquinone is a chemical material. When using it, many matters need to be paid attention to.
The first one concerns safety protection. This compound may be toxic and irritating. When exposed, be sure to wear suitable protective equipment. Protective gloves are made of chemically resistant materials to avoid the agent from contaminating the skin, causing skin allergies, burns, etc. Protective glasses are also indispensable, which can effectively protect the eyes from the splashing of the agent, to prevent eye damage and even affect vision. In addition, gas masks are also necessary, especially when used in poorly ventilated environments, to prevent inhalation of volatile gases from the agent and protect the respiratory tract, so as to avoid serious consequences such as respiratory inflammation and poisoning.
Times and operating environment. It is essential that the place of use be well ventilated. Good ventilation can disperse volatile harmful gases in time, reduce the concentration of chemicals in the air, and reduce the risk of poisoning. It is more appropriate to operate in a fume hood, which can effectively collect and discharge harmful gases, creating a safer operating space for operators. At the same time, the operating table should be kept clean and dry to prevent the properties of the compound from being mixed with impurities or humid environments, and to avoid other chemical reactions caused by unclean countertops, which endanger safety.
The third is storage. The compound should be stored according to specific specifications. It should be stored in a cool, dry place, away from heat and fire sources. The high temperature environment may cause the decomposition and evaporation of the compound to accelerate, which not only affects its quality, but also may cause safety accidents. Humid environment or cause the compound to absorb moisture and deteriorate, changing its chemical properties. The storage container must also be well sealed to prevent contact with the air to oxidize or absorb moisture, carbon dioxide, etc. in the air, causing changes in the composition.
The fourth is related to the operation specification. During use, strictly follow the established operating procedures, and must not change the operation process and parameters at will. When taking the compound, measure it accurately to avoid waste and prevent abnormal reactions due to improper measurement. During operation, closely observe the reaction phenomenon. If there is any abnormality, such as sudden change in temperature, abnormal odor or color change, etc., immediately stop the operation and take corresponding measures to ensure safety.
The fifth is waste treatment. After use, the remaining compounds and waste cannot be discarded at will. It needs to be collected and treated in accordance with environmental protection requirements. For waste containing this compound, it needs to be specially chemically treated to reduce its toxicity and harmfulness, and it can only be discharged after reaching the discharge standard. Solid waste should also be properly collected and handed over to professional treatment institutions for disposal to prevent pollution to the environment.
In short, the use of 1-isopropylamine-4-bromo-6-sulfonate anthraquinone, safety protection, operating environment, storage, operation specifications and waste disposal should not be taken lightly, so as to ensure that the use process is safe, environmentally friendly, and effectively achieve the intended purpose.

What are the physical and chemical properties of 1-Isopropylamine-4-Bromo-6-Sulphonic Acid Anthraquinone?

1-Isopropylamine-4-bromo-6-sulfonate anthraquinone, this is an organic compound. It has many physical and chemical properties.
Looking at its properties, under room temperature, or in a solid state, it is often powdery, which is caused by intermolecular forces. Its color may vary, or it may be light yellow to orange, which is related to the conjugate system in the molecular structure. The conjugate system can absorb specific wavelengths of light, causing it to exhibit corresponding colors.
On solubility, in water, its solubility is not good. Although the compound contains sulfonic acid groups in the molecule, it can form hydrogen bonds with water, but the isopropylamino group, bromine atom and anthraquinone parent have strong hydrophobicity, which makes it difficult to dissolve in water. However, in some organic solvents, such as dimethyl sulfoxide (DMSO), N, N-dimethylformamide (DMF), it has good solubility. Because these organic solvents can form intermolecular forces with the compound molecules, such as van der Waals force, hydrogen bond, etc., to promote its dissolution.
Its melting point is also an important property. Experiments have determined that the melting point is in a certain temperature range, because when heated, the molecule obtains enough energy to overcome the lattice energy and the crystal structure is destroyed and melts. The melting point is affected by intermolecular forces and the degree of crystal structure regularity.
In terms of chemical properties, its sulfonic acid group is acidic and can neutralize with bases to form corresponding salts. Isopropylamine group has a certain alkalinity and can participate in nucleophilic substitution reactions. Bromine atoms are highly active. Under suitable conditions, substitution reactions can occur and are replaced by other nucleophilic reagents. For example, when reacted with sodium alcohol, bromine atoms can be replaced by alkoxy groups. The parent body of anthraquinone can undergo oxidation-reduction reactions due to its conjugated system. Under certain conditions, the structure of anthraquinone can be reduced to anthrahydroquinone, and vice versa, it can also be oxidized back to anthraquinone.