Linshang Chemical
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3,4-Dichlorobenzeneboronic Acid
Linshang Chemical
|
HS Code |
559555 |
| Chemical Formula | C6H3Cl2BO2 |
| Molecular Weight | 190.89 g/mol |
| Appearance | White to off - white solid |
| Melting Point | 220 - 225 °C |
| Solubility In Water | Slightly soluble |
| Solubility In Organic Solvents | Soluble in common organic solvents like dichloromethane, toluene |
| Purity | Typically high - purity grades available, e.g., 97%+ |
| Stability | Stable under normal conditions, but moisture - sensitive |
| Acidity | Weakly acidic due to the boronic acid group |
As an accredited 3,4-Dichlorobenzeneboronic Acid factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100g of 3,4 - dichlorobenzeneboronic Acid in a sealed, chemical - resistant plastic bag. |
| Storage | 3,4 - dichlorobenzeneboronic acid should be stored in a cool, dry, and well - ventilated area. Keep it away from heat sources, open flames, and oxidizing agents. Store it in a tightly sealed container to prevent moisture absorption and potential degradation. Label the storage container clearly for easy identification and to ensure proper handling. |
| Shipping | 3,4 - Dichlorobenzeneboronic Acid is shipped in well - sealed, corrosion - resistant containers. Special care is taken to prevent moisture and contamination during transit, following strict chemical shipping regulations. |
Competitive 3,4-Dichlorobenzeneboronic Acid prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8615365006308 or mail to info@alchemist-chem.com.
We will respond to you as soon as possible.
Tel: +8615365006308
Email: info@alchemist-chem.com
Where to Buy 3,4-Dichlorobenzeneboronic Acid in China?
As a trusted 3,4-Dichlorobenzeneboronic Acid manufacturer, we deliver:
Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements.
Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery.
Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.
As a leading 3,4-Dichlorobenzeneboronic Acid supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.
What are the main uses of 3,4-dichlorophenylboronic acid?
The main uses of dioxyanthraquinone acid are as follows:
The first is the way of pharmaceutical preparation. Dioxyanthraquinone acid is often used as a key intermediate in the field of medicine. Based on this, many drugs with special curative effects can be synthesized. For example, some drugs used to fight inflammation, with the unique chemical structure of dioxyanthraquinone acid, can precisely act on the target of inflammatory reaction, effectively relieve inflammatory symptoms and relieve pain for patients. In the drug synthesis step, it is like a delicate cornerstone, building a complex and delicate molecular structure of the drug, helping the drug to achieve the ideal therapeutic effect.
The second is the path of material modification. In the field of materials science, dioxyanthraquinone acid can be added to specific materials to improve material properties. If an appropriate amount of dioxyanthraquinone acid is incorporated into the polymer material, the heat resistance of the material can be improved. When the material faces a high temperature environment, dioxyanthraquinone acid interacts with the polymer chain to form a stable structure and inhibit the thermal movement of the molecule, so that the material can still maintain good physical properties at high temperatures without softening or deforming too quickly. It broadens the application scene of the material, and is of great significance in industrial equipment, aerospace components, etc. under high temperature conditions.
In addition, it is used for dye synthesis. Dioxyanthraquinone acid can be chemically modified due to its unique chemical structure to make dyes with bright colors and good stability. Such dyes are used in the textile, printing and dyeing industries. The dyed fabrics are bright in color, and after many washes and lighting, the color is still not easy to fade. Due to its chemical stability, it can firmly adhere to the fiber surface and form a stable bond with fiber molecules, ensuring the long-term retention of dyes, adding color to textile products, and enhancing product aesthetics and market competitiveness.
The first is the way of pharmaceutical preparation. Dioxyanthraquinone acid is often used as a key intermediate in the field of medicine. Based on this, many drugs with special curative effects can be synthesized. For example, some drugs used to fight inflammation, with the unique chemical structure of dioxyanthraquinone acid, can precisely act on the target of inflammatory reaction, effectively relieve inflammatory symptoms and relieve pain for patients. In the drug synthesis step, it is like a delicate cornerstone, building a complex and delicate molecular structure of the drug, helping the drug to achieve the ideal therapeutic effect.
The second is the path of material modification. In the field of materials science, dioxyanthraquinone acid can be added to specific materials to improve material properties. If an appropriate amount of dioxyanthraquinone acid is incorporated into the polymer material, the heat resistance of the material can be improved. When the material faces a high temperature environment, dioxyanthraquinone acid interacts with the polymer chain to form a stable structure and inhibit the thermal movement of the molecule, so that the material can still maintain good physical properties at high temperatures without softening or deforming too quickly. It broadens the application scene of the material, and is of great significance in industrial equipment, aerospace components, etc. under high temperature conditions.
In addition, it is used for dye synthesis. Dioxyanthraquinone acid can be chemically modified due to its unique chemical structure to make dyes with bright colors and good stability. Such dyes are used in the textile, printing and dyeing industries. The dyed fabrics are bright in color, and after many washes and lighting, the color is still not easy to fade. Due to its chemical stability, it can firmly adhere to the fiber surface and form a stable bond with fiber molecules, ensuring the long-term retention of dyes, adding color to textile products, and enhancing product aesthetics and market competitiveness.
What are the synthesis methods of 3,4-dichlorophenylboronic acid?
The synthesis methods of anthraquinone acid are as follows.
First, anthraquinone is used as the starting material, through a series of reactions such as nitration, reduction, diazotization and hydrolysis. Anthraquinone is first heated with mixed acids of nitric acid and sulfuric acid to obtain nitroanthraquinone. This process requires temperature control to avoid excessive nitrification. After iron powder, hydrochloric acid or sodium sulfide and other reducing agents, the nitro group is reduced to amino group to form amino anthraquinone. Then it reacts with sodium nitrite and hydrochloric acid to perform diazotization to obtain diazonium salt. Finally, diazonium salt is hydrolyzed to obtain anthraquinone acid.
Second, it can be started from halogenated anthraquinone. The halogenated anthraquinone reacts with the hydroxide or carbonate of the alkali metal at high temperature and pressure, and the hydroxyl group is introduced through nucleophilic substitution. Subsequently, the hydroxyl group is further oxidized to obtain anthraquinone acid. This process requires high reaction equipment, which needs to be able to withstand high pressure and high temperature, and needs to precisely control the reaction conditions, such as temperature, pressure and the proportion of reactants.
There are also those who use anthraquinone as raw material. Anthraquinone is oxidized first to form anthraquinone. The subsequent steps are the same as those who use anthraquinone as the starting material. However, the oxidation of anthraquinone requires the selection of suitable oxidizing agents and reaction conditions to improve the yield and purity of anthraquinone.
In addition, some aromatic compounds containing specific substituents are used as starting materials to synthesize dioxyanthraquinone acid through multi-step cyclization, oxidation and other reactions. This path is exquisitely designed, but the reaction steps are complicated, and multi-step protection and deprotection operations are required. The reaction conditions and purification of intermediates require strict requirements to obtain high-purity products.
First, anthraquinone is used as the starting material, through a series of reactions such as nitration, reduction, diazotization and hydrolysis. Anthraquinone is first heated with mixed acids of nitric acid and sulfuric acid to obtain nitroanthraquinone. This process requires temperature control to avoid excessive nitrification. After iron powder, hydrochloric acid or sodium sulfide and other reducing agents, the nitro group is reduced to amino group to form amino anthraquinone. Then it reacts with sodium nitrite and hydrochloric acid to perform diazotization to obtain diazonium salt. Finally, diazonium salt is hydrolyzed to obtain anthraquinone acid.
Second, it can be started from halogenated anthraquinone. The halogenated anthraquinone reacts with the hydroxide or carbonate of the alkali metal at high temperature and pressure, and the hydroxyl group is introduced through nucleophilic substitution. Subsequently, the hydroxyl group is further oxidized to obtain anthraquinone acid. This process requires high reaction equipment, which needs to be able to withstand high pressure and high temperature, and needs to precisely control the reaction conditions, such as temperature, pressure and the proportion of reactants.
There are also those who use anthraquinone as raw material. Anthraquinone is oxidized first to form anthraquinone. The subsequent steps are the same as those who use anthraquinone as the starting material. However, the oxidation of anthraquinone requires the selection of suitable oxidizing agents and reaction conditions to improve the yield and purity of anthraquinone.
In addition, some aromatic compounds containing specific substituents are used as starting materials to synthesize dioxyanthraquinone acid through multi-step cyclization, oxidation and other reactions. This path is exquisitely designed, but the reaction steps are complicated, and multi-step protection and deprotection operations are required. The reaction conditions and purification of intermediates require strict requirements to obtain high-purity products.
What are the physical properties of 3,4-dichlorophenylboronic acid
Vanadoxalic acid is a chemical substance. Its physical properties are unique and interesting. Let me tell you one by one.
First of all, under room temperature, vanadoxalic acid is often in the shape of crystals, and the crystal shape is exquisite. It is like a miniature work of art made by nature. Under the light or a unique luster, it is like a pearl hidden and shimmering.
Second and color, its color is mostly emerald green. This green is unusual green, just like the fresh and emerald green of new leaves in spring. It is pleasing to watch, and I feel that the vitality of nature is contained in it.
Furthermore, in terms of its solubility, vanadoxalic acid has a certain solubility in water. When it comes into contact with water, its molecules are like smart sprites, gradually dispersing among water molecules, but their dissolution rate and degree are also controlled by various factors such as water temperature and water quality. In hot water, it dissolves or dissolves more smoothly, like ice and snow in the warm sun, slowly melting.
In other words, its density is larger than that of ordinary water. When you hold it in your hand, you can feel the thickness of its texture. This is because the atoms in it are closely arranged, resulting in an increase in the amount of matter per unit volume.
Its melting point is also an important physical property. When the temperature gradually rises to a specific value, dioxyvanadoxalic acid will change from a solid state to a liquid state, just like ice into water. During this process, it needs to absorb a certain amount of heat to break the lattice structure of its solid state, allowing its molecules to gain more energy and move freely.
In addition, the crystal structure of dioxyvanadoxalic acid is also exquisite and complex, and atoms are connected in a specific way to construct a stable three-dimensional structure. This structure not only determines its external shape, but also is closely related to many physical properties.
All these physical properties are interrelated, forming the unique physical properties of dioxyvanadoxalic acid, which allows us to understand this wonderful chemical substance from different angles, and also lays the foundation for its application in scientific research, industry and many other fields.
First of all, under room temperature, vanadoxalic acid is often in the shape of crystals, and the crystal shape is exquisite. It is like a miniature work of art made by nature. Under the light or a unique luster, it is like a pearl hidden and shimmering.
Second and color, its color is mostly emerald green. This green is unusual green, just like the fresh and emerald green of new leaves in spring. It is pleasing to watch, and I feel that the vitality of nature is contained in it.
Furthermore, in terms of its solubility, vanadoxalic acid has a certain solubility in water. When it comes into contact with water, its molecules are like smart sprites, gradually dispersing among water molecules, but their dissolution rate and degree are also controlled by various factors such as water temperature and water quality. In hot water, it dissolves or dissolves more smoothly, like ice and snow in the warm sun, slowly melting.
In other words, its density is larger than that of ordinary water. When you hold it in your hand, you can feel the thickness of its texture. This is because the atoms in it are closely arranged, resulting in an increase in the amount of matter per unit volume.
Its melting point is also an important physical property. When the temperature gradually rises to a specific value, dioxyvanadoxalic acid will change from a solid state to a liquid state, just like ice into water. During this process, it needs to absorb a certain amount of heat to break the lattice structure of its solid state, allowing its molecules to gain more energy and move freely.
In addition, the crystal structure of dioxyvanadoxalic acid is also exquisite and complex, and atoms are connected in a specific way to construct a stable three-dimensional structure. This structure not only determines its external shape, but also is closely related to many physical properties.
All these physical properties are interrelated, forming the unique physical properties of dioxyvanadoxalic acid, which allows us to understand this wonderful chemical substance from different angles, and also lays the foundation for its application in scientific research, industry and many other fields.
What is the market price of 3,4-dichlorophenylboronic acid?
In today's world, business conditions change, and the price of the market is often fluctuating due to various reasons. As for dioxytungsten boronic acid, the market price follows this path, and it is difficult to generalize.
The first one, its price is subject to the trend of supply and demand. If there are many people who want to buy dioxytungsten boronic acid in the world, but the output is small, the price will rise. Those who compete for it will bid at a high price, and the price will rise. On the contrary, if the output is abundant, but there are few applicants, and the stock is in the market, the price will drop to promote its sale.
The price of raw materials also has a great impact on the price of dioxytungsten boronic acid. The raw material may be difficult or easy to obtain, or abundant or poor, and its price will rise and fall accordingly. If the price of raw materials is high, the cost of making dioxytungsten boronic acid will also increase. If the merchant wants to protect its profit, it must raise its price.
The three, the government regulations and the tax rate, also affect the price. The government sets strict regulations to supervise its production and control its sales, and the merchant may increase the fee due to compliance, resulting in an increase in price. The increase or decrease in tax is directly related to the cost. The increase or decrease in tax is directly related to the cost. The good of the technology can also be a variable in the price. When the new technology is introduced, the production efficiency is greatly increased, and the cost or decrease, the price will also drop. There may be a new generation of things that can replace dioxytungsten boronic acid. If you want to change to a new product, its price will also be suppressed.
In general, if you want to know the exact price of dioxytungsten boronic acid in the city, you must carefully consider the current supply and demand, the price of raw materials, the state of government and taxation, and changes in technology. In today's world, although the flow of information is convenient, the market conditions are constantly changing, and the price is difficult to determine.
The first one, its price is subject to the trend of supply and demand. If there are many people who want to buy dioxytungsten boronic acid in the world, but the output is small, the price will rise. Those who compete for it will bid at a high price, and the price will rise. On the contrary, if the output is abundant, but there are few applicants, and the stock is in the market, the price will drop to promote its sale.
The price of raw materials also has a great impact on the price of dioxytungsten boronic acid. The raw material may be difficult or easy to obtain, or abundant or poor, and its price will rise and fall accordingly. If the price of raw materials is high, the cost of making dioxytungsten boronic acid will also increase. If the merchant wants to protect its profit, it must raise its price.
The three, the government regulations and the tax rate, also affect the price. The government sets strict regulations to supervise its production and control its sales, and the merchant may increase the fee due to compliance, resulting in an increase in price. The increase or decrease in tax is directly related to the cost. The increase or decrease in tax is directly related to the cost. The good of the technology can also be a variable in the price. When the new technology is introduced, the production efficiency is greatly increased, and the cost or decrease, the price will also drop. There may be a new generation of things that can replace dioxytungsten boronic acid. If you want to change to a new product, its price will also be suppressed.
In general, if you want to know the exact price of dioxytungsten boronic acid in the city, you must carefully consider the current supply and demand, the price of raw materials, the state of government and taxation, and changes in technology. In today's world, although the flow of information is convenient, the market conditions are constantly changing, and the price is difficult to determine.
What are the precautions for storing and transporting 3,4-dichlorophenylboronic acid?
When storing and transporting 3% 2C4-dioxyfuravulanic acid, many things should be paid attention to.
When storing, the temperature and humidity of the environment are the most important. This substance is quite sensitive to temperature changes, and high temperature can easily cause its chemical properties to change, so it should be stored in a cool place, usually 2-8 ° C. And humidity must also be strictly controlled. If the humidity is too high or it causes deliquescence and deterioration, the relative humidity of the environment should be maintained at 40% - 60%. Furthermore, the storage place must be kept dry and well ventilated to avoid co-storage with oxidizing and reducing substances. Because of its high chemical activity, contact with it is easy to cause chemical reactions and damage its quality.
When transporting, packaging is crucial. Suitable packaging materials must be selected to ensure its stability during transportation and prevent damage and leakage due to vibration, collision. Special sealed containers are commonly used, and the outside is reinforced with buffer materials. The transportation vehicle also needs to meet specific conditions. The temperature and humidity inside the vehicle should be controllable, and safety facilities such as fire prevention and explosion protection must be provided. At the same time, the transportation personnel should also be familiar with the characteristics of the substance and emergency response methods. In case of emergencies during transportation, they can respond in a timely and appropriate manner. In addition, the transportation process must strictly follow relevant laws and regulations, and complete transportation permits and procedures must be completed to ensure legal compliance.
In conclusion, 3% 2C4-dioxyfuravulanic acid needs to be carefully treated in many aspects such as temperature and humidity, packaging, environment and personnel during storage and transportation to ensure its quality and safety.
When storing, the temperature and humidity of the environment are the most important. This substance is quite sensitive to temperature changes, and high temperature can easily cause its chemical properties to change, so it should be stored in a cool place, usually 2-8 ° C. And humidity must also be strictly controlled. If the humidity is too high or it causes deliquescence and deterioration, the relative humidity of the environment should be maintained at 40% - 60%. Furthermore, the storage place must be kept dry and well ventilated to avoid co-storage with oxidizing and reducing substances. Because of its high chemical activity, contact with it is easy to cause chemical reactions and damage its quality.
When transporting, packaging is crucial. Suitable packaging materials must be selected to ensure its stability during transportation and prevent damage and leakage due to vibration, collision. Special sealed containers are commonly used, and the outside is reinforced with buffer materials. The transportation vehicle also needs to meet specific conditions. The temperature and humidity inside the vehicle should be controllable, and safety facilities such as fire prevention and explosion protection must be provided. At the same time, the transportation personnel should also be familiar with the characteristics of the substance and emergency response methods. In case of emergencies during transportation, they can respond in a timely and appropriate manner. In addition, the transportation process must strictly follow relevant laws and regulations, and complete transportation permits and procedures must be completed to ensure legal compliance.
In conclusion, 3% 2C4-dioxyfuravulanic acid needs to be carefully treated in many aspects such as temperature and humidity, packaging, environment and personnel during storage and transportation to ensure its quality and safety.
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