Linshang Chemical
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Pentachlorobenzene Formyl Chloride
Linshang Chemical
|
HS Code |
100004 |
| Chemical Formula | C7Cl6O |
| Molecular Weight | 309.89 |
| Solubility In Water | Expected to be low (due to hydrophobic nature of chlorinated benzene ring) |
| Solubility In Organic Solvents | Likely soluble in non - polar organic solvents |
| Vapor Pressure | Low (due to high molecular weight and relatively non - volatile nature) |
| Odor | No standard odor data available, but chlorinated organics may have a pungent smell |
As an accredited Pentachlorobenzene Formyl Chloride factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100 - gram bottle of Pentachlorobenzene Formyl Chloride, well - sealed for safety. |
| Storage | Pentachlorobenzene formyl chloride should be stored in a cool, dry, well - ventilated area away from sources of heat, ignition, and incompatible substances. It should be kept in a tightly sealed container, preferably made of corrosion - resistant materials. Given its potentially hazardous nature, storage should comply with strict safety regulations to prevent leakage and environmental or human exposure. |
| Shipping | Pentachlorobenzene formyl chloride is a hazardous chemical. Shipping requires strict compliance with regulations. It must be packaged in suitable, leak - proof containers and transported by carriers licensed for hazardous materials, ensuring safety during transit. |
Competitive Pentachlorobenzene Formyl Chloride 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 Pentachlorobenzene Formyl Chloride in China?
As a trusted Pentachlorobenzene Formyl Chloride 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 Pentachlorobenzene Formyl Chloride 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 pentachlorobenzoyl chloride?
The main uses of phosphorus pentoxide smoke actually have many aspects.
On top of the military, phosphorus pentoxide smoke can be used as a smoke screen. The principle is that phosphorus pentoxide reacts rapidly in contact with water to generate phosphoric acid, and this process emits a lot of heat, which will produce thick smoke. This smoke can effectively block the enemy's line of sight and interfere with the enemy's reconnaissance, targeting and attack operations. For example, in ancient wars, if phosphorus pentoxide smoke can be cleverly used, it can make one's own army hide their whereabouts on the battlefield, or cover their own army's transfer and surprise attacks, etc., making it difficult for the enemy to understand our virtual reality and action intentions, so as to take the initiative in the battlefield.
In the industrial field, phosphorus pentoxide smoke also has important uses. It can be used for the dehydration treatment of certain substances. Due to the strong water absorption of phosphorus pentoxide, in some organic synthesis reactions, the environment created by its smoke can remove the moisture in the reaction system, promote the reaction in the desired direction, and improve the reaction yield. For example, in the manufacture of some fine chemical products, the drying degree of the reaction environment is quite high, and the dry atmosphere created by phosphorus pentoxide smoke is indispensable.
In agriculture, phosphorus pentoxide smoke can play an indirect role. Phosphorus pentoxide can be used as a raw material for phosphorus fertilizer after a series of conversions. When phosphorus pentoxide smoke settles in the soil, it gradually converts into the phosphorus element form that can be absorbed by plants by reacting with the substances in the soil, providing essential nutrients for plant growth, and helping crops to thrive and improve crop yield and quality.
To sum up, phosphorus pentoxide smoke has important uses in military, industrial, agricultural and other fields, and has a non-negligible impact on human production, life and military activities.
On top of the military, phosphorus pentoxide smoke can be used as a smoke screen. The principle is that phosphorus pentoxide reacts rapidly in contact with water to generate phosphoric acid, and this process emits a lot of heat, which will produce thick smoke. This smoke can effectively block the enemy's line of sight and interfere with the enemy's reconnaissance, targeting and attack operations. For example, in ancient wars, if phosphorus pentoxide smoke can be cleverly used, it can make one's own army hide their whereabouts on the battlefield, or cover their own army's transfer and surprise attacks, etc., making it difficult for the enemy to understand our virtual reality and action intentions, so as to take the initiative in the battlefield.
In the industrial field, phosphorus pentoxide smoke also has important uses. It can be used for the dehydration treatment of certain substances. Due to the strong water absorption of phosphorus pentoxide, in some organic synthesis reactions, the environment created by its smoke can remove the moisture in the reaction system, promote the reaction in the desired direction, and improve the reaction yield. For example, in the manufacture of some fine chemical products, the drying degree of the reaction environment is quite high, and the dry atmosphere created by phosphorus pentoxide smoke is indispensable.
In agriculture, phosphorus pentoxide smoke can play an indirect role. Phosphorus pentoxide can be used as a raw material for phosphorus fertilizer after a series of conversions. When phosphorus pentoxide smoke settles in the soil, it gradually converts into the phosphorus element form that can be absorbed by plants by reacting with the substances in the soil, providing essential nutrients for plant growth, and helping crops to thrive and improve crop yield and quality.
To sum up, phosphorus pentoxide smoke has important uses in military, industrial, agricultural and other fields, and has a non-negligible impact on human production, life and military activities.
What are the physical properties of pentachlorobenzoyl chloride?
The physical properties of pentabromotoluene cyanobromide are as follows:
This substance may be solid at room temperature. Viewed, its color state may be white to light yellow powder, and its appearance is delicate and uniform.
Smell it, or have a special smell, but the smell may vary slightly due to factors such as environment and purity.
When it comes to density, its value varies according to the specific measurement environment and method, and is roughly within a certain range. It is heavier than common light substances and contains relatively more mass per unit volume.
Its melting point and boiling point are also key physical characteristics. The melting point is the specific temperature at which a substance converts from a solid state to a liquid state. The melting point of pentabromotoluene cyanobromide makes the phase change under a specific heat supply. The boiling point is related to the temperature at which it changes from a liquid state to a gas state. Sufficient energy is required to overcome the intermolecular forces and promote the gasification of the substance.
In terms of solubility, it is extremely difficult to dissolve in water. Due to the significant difference in the polarity between the molecular structure and water, it is difficult for the two to interact to form a uniform and stable system. However, some organic solvents, such as aromatics and halogenated hydrocarbon solvents, may have a certain solubility, and can be mixed with each other due to the intermolecular forces and solvent molecules.
In addition, the granularity and dispersion of pentabromotoluene cyanobromide are also affected by factors such as the preparation process. The granularity is coarse or fine, and the dispersion is different, which also has a corresponding effect on its practical application efficiency.
This substance may be solid at room temperature. Viewed, its color state may be white to light yellow powder, and its appearance is delicate and uniform.
Smell it, or have a special smell, but the smell may vary slightly due to factors such as environment and purity.
When it comes to density, its value varies according to the specific measurement environment and method, and is roughly within a certain range. It is heavier than common light substances and contains relatively more mass per unit volume.
Its melting point and boiling point are also key physical characteristics. The melting point is the specific temperature at which a substance converts from a solid state to a liquid state. The melting point of pentabromotoluene cyanobromide makes the phase change under a specific heat supply. The boiling point is related to the temperature at which it changes from a liquid state to a gas state. Sufficient energy is required to overcome the intermolecular forces and promote the gasification of the substance.
In terms of solubility, it is extremely difficult to dissolve in water. Due to the significant difference in the polarity between the molecular structure and water, it is difficult for the two to interact to form a uniform and stable system. However, some organic solvents, such as aromatics and halogenated hydrocarbon solvents, may have a certain solubility, and can be mixed with each other due to the intermolecular forces and solvent molecules.
In addition, the granularity and dispersion of pentabromotoluene cyanobromide are also affected by factors such as the preparation process. The granularity is coarse or fine, and the dispersion is different, which also has a corresponding effect on its practical application efficiency.
What are the chemical properties of pentachlorobenzoyl chloride?
The chemical properties of pentabromotoluene ether are related to its properties and behavior in chemical reactions. This substance has many remarkable properties in terms of chemical properties.
Pentabromotoluene ether contains many bromine atoms, which endows it with unique reactivity. The electronegativity of bromine atoms is quite high, which makes the distribution of molecular electron clouds take on a specific shape. Therefore, in nucleophilic substitution reactions, bromine atoms are vulnerable to attack by nucleophiles, which in turn leads to the breaking and recombination of chemical bonds.
Its stability is also one of the important chemical properties. Under normal environmental conditions, pentabromotoluene ether is relatively stable, but its structure may change under extreme conditions such as high temperature and strong oxidants. When the temperature is high, or the decomposition reaction is triggered, the bromine atoms are separated in the form of hydrogen bromide, causing the molecular structure to disintegrate.
In the field of organic synthesis, pentabromotoluene ether can be used as an important intermediate. With its bromine atoms, it can be connected with other organic compounds through suitable chemical reactions to build more complex molecular structures. For example, by reacting with compounds containing functional groups such as hydroxyl groups and amino groups, new chemical bonds are formed through substitution reactions to expand the diversity of molecules.
The chemical properties of pentabromotoluene ether are also reflected in its solubility. Generally speaking, it has a certain solubility in organic solvents such as toluene and dichloromethane, but little solubility in water. This solubility property plays a key role in the operation of separation, purification and related chemical reactions. During the reaction, a suitable solvent needs to be selected to ensure that pentabromotoluene ether can be uniformly dispersed and promote the smooth progress of the reaction.
And because it contains a large number of bromine atoms, it can play a flame retardant effect during combustion. Under the action of high temperature flame, the hydrogen bromide and other gases produced by the decomposition of pentabromotoluene ether can dilute the oxygen concentration in the combustion area and interfere with the combustion chain reaction, thereby blocking the combustion process. This is an important basis for its application in the field of material flame retardancy.
Pentabromotoluene ether contains many bromine atoms, which endows it with unique reactivity. The electronegativity of bromine atoms is quite high, which makes the distribution of molecular electron clouds take on a specific shape. Therefore, in nucleophilic substitution reactions, bromine atoms are vulnerable to attack by nucleophiles, which in turn leads to the breaking and recombination of chemical bonds.
Its stability is also one of the important chemical properties. Under normal environmental conditions, pentabromotoluene ether is relatively stable, but its structure may change under extreme conditions such as high temperature and strong oxidants. When the temperature is high, or the decomposition reaction is triggered, the bromine atoms are separated in the form of hydrogen bromide, causing the molecular structure to disintegrate.
In the field of organic synthesis, pentabromotoluene ether can be used as an important intermediate. With its bromine atoms, it can be connected with other organic compounds through suitable chemical reactions to build more complex molecular structures. For example, by reacting with compounds containing functional groups such as hydroxyl groups and amino groups, new chemical bonds are formed through substitution reactions to expand the diversity of molecules.
The chemical properties of pentabromotoluene ether are also reflected in its solubility. Generally speaking, it has a certain solubility in organic solvents such as toluene and dichloromethane, but little solubility in water. This solubility property plays a key role in the operation of separation, purification and related chemical reactions. During the reaction, a suitable solvent needs to be selected to ensure that pentabromotoluene ether can be uniformly dispersed and promote the smooth progress of the reaction.
And because it contains a large number of bromine atoms, it can play a flame retardant effect during combustion. Under the action of high temperature flame, the hydrogen bromide and other gases produced by the decomposition of pentabromotoluene ether can dilute the oxygen concentration in the combustion area and interfere with the combustion chain reaction, thereby blocking the combustion process. This is an important basis for its application in the field of material flame retardancy.
What are the precautions for pentachlorobenzoyl chloride in the production process?
During the manufacture of pentabromotoluene ether bromine, many matters need to be paid attention to.
First material quality. Materials are the foundation of production, and the raw materials of pentabromotoluene ether bromine must be pure, high-quality and meet specific standards. If the raw materials are impure, impurities or abnormal reactions affect the quality and performance of the product, or make the product unable to meet the expected indicators, it is difficult to apply to the established field.
Secondary reaction conditions. Temperature, pressure, reaction time, catalyst, etc., all have a significant impact on the reaction process and results. If the temperature is too high or too low, the reaction rate may be out of control, or side reactions may increase, and the purity of the product will be reduced; improper pressure may affect the state and direction of the substance; insufficient reaction time, incomplete reaction, and low product yield; inappropriate catalyst selection and dosage will also make it difficult to obtain the desired reaction effect. Therefore, precise regulation of reaction conditions is the key to producing qualified pentabromotoluene ether bromide.
Furthermore, equipment maintenance. Equipment used in production should be regularly overhauled and maintained to ensure its normal operation. If the equipment fails, such as poor sealing or material leakage, it will waste resources, pollute the environment, and may affect the stability of the reaction. Pipeline blockage may cause material transmission to be poor, disrupt the production rhythm, and even cause safety accidents.
There are personnel to operate. Production personnel must be professionally trained and familiar with the production process and operation specifications. Improper operation, such as wrong feeding sequence and uneven stirring rate, may have a negative impact on the reaction. Standardized operation not only guarantees product quality, but also concerns personnel safety and sustainable production.
There are environmental factors. The humidity and cleanliness of the production environment also play a role in the production of pentabromotoluene ether bromide. High humidity may cause the material to absorb moisture and affect the reaction; the environment is unclean, dust and other impurities are mixed in, or the purity of the product is reduced.
First material quality. Materials are the foundation of production, and the raw materials of pentabromotoluene ether bromine must be pure, high-quality and meet specific standards. If the raw materials are impure, impurities or abnormal reactions affect the quality and performance of the product, or make the product unable to meet the expected indicators, it is difficult to apply to the established field.
Secondary reaction conditions. Temperature, pressure, reaction time, catalyst, etc., all have a significant impact on the reaction process and results. If the temperature is too high or too low, the reaction rate may be out of control, or side reactions may increase, and the purity of the product will be reduced; improper pressure may affect the state and direction of the substance; insufficient reaction time, incomplete reaction, and low product yield; inappropriate catalyst selection and dosage will also make it difficult to obtain the desired reaction effect. Therefore, precise regulation of reaction conditions is the key to producing qualified pentabromotoluene ether bromide.
Furthermore, equipment maintenance. Equipment used in production should be regularly overhauled and maintained to ensure its normal operation. If the equipment fails, such as poor sealing or material leakage, it will waste resources, pollute the environment, and may affect the stability of the reaction. Pipeline blockage may cause material transmission to be poor, disrupt the production rhythm, and even cause safety accidents.
There are personnel to operate. Production personnel must be professionally trained and familiar with the production process and operation specifications. Improper operation, such as wrong feeding sequence and uneven stirring rate, may have a negative impact on the reaction. Standardized operation not only guarantees product quality, but also concerns personnel safety and sustainable production.
There are environmental factors. The humidity and cleanliness of the production environment also play a role in the production of pentabromotoluene ether bromide. High humidity may cause the material to absorb moisture and affect the reaction; the environment is unclean, dust and other impurities are mixed in, or the purity of the product is reduced.
What are the effects of pentachlorobenzoyl chloride on the environment and human health?
Sodium pentachlorophenol is a toxic agent that has many effects on the environment and human health.
At the environmental level, this agent is chemically stable, not easy to degrade, and easy to remain in soil and water bodies. When retained in the soil, it will damage the soil ecological structure, interfere with the normal activities and reproduction of soil microorganisms, hinder material circulation and energy conversion in the soil, and also hinder the growth of vegetation, or cause plant growth retardation, stunting, and in severe cases, plant death. When retained in water bodies, it will poison aquatic organisms, cause the death of aquatic animals such as fish and shrimp, destroy the aquatic ecological balance, and cause water bodies to be polluted, affecting the surrounding water environment and drinking water sources.
In terms of human health, if the human body comes into contact with or ingests sodium pentachlorophenol, it is quite harmful. Through skin contact, it can cause allergic symptoms such as skin itching, redness, swelling, and rash, and in severe cases, it may cause skin ulceration. Inhalation through the respiratory tract will irritate the mucosa of the respiratory tract, causing symptoms such as cough, asthma, and breathing difficulties. If ingested by mistake, it will damage the human digestive system and nervous system. In the digestive system, it can cause nausea, vomiting, abdominal pain, diarrhea, etc. In the nervous system, it may cause dizziness, headache, fatigue, and in severe cases, convulsions, coma, and even life-threatening. Long-term exposure to the environment containing sodium pentachlorophenol will also increase the risk of diseases such as cancer, which seriously threatens human Therefore, sodium pentachlorophenol should be properly controlled and disposed of to reduce its harm to the environment and human health.
At the environmental level, this agent is chemically stable, not easy to degrade, and easy to remain in soil and water bodies. When retained in the soil, it will damage the soil ecological structure, interfere with the normal activities and reproduction of soil microorganisms, hinder material circulation and energy conversion in the soil, and also hinder the growth of vegetation, or cause plant growth retardation, stunting, and in severe cases, plant death. When retained in water bodies, it will poison aquatic organisms, cause the death of aquatic animals such as fish and shrimp, destroy the aquatic ecological balance, and cause water bodies to be polluted, affecting the surrounding water environment and drinking water sources.
In terms of human health, if the human body comes into contact with or ingests sodium pentachlorophenol, it is quite harmful. Through skin contact, it can cause allergic symptoms such as skin itching, redness, swelling, and rash, and in severe cases, it may cause skin ulceration. Inhalation through the respiratory tract will irritate the mucosa of the respiratory tract, causing symptoms such as cough, asthma, and breathing difficulties. If ingested by mistake, it will damage the human digestive system and nervous system. In the digestive system, it can cause nausea, vomiting, abdominal pain, diarrhea, etc. In the nervous system, it may cause dizziness, headache, fatigue, and in severe cases, convulsions, coma, and even life-threatening. Long-term exposure to the environment containing sodium pentachlorophenol will also increase the risk of diseases such as cancer, which seriously threatens human Therefore, sodium pentachlorophenol should be properly controlled and disposed of to reduce its harm to the environment and human health.
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