Linshang Chemical
PRODUCTS
2,2,O,P-Tetrachloroethylidenebisbenzene
Linshang Chemical
|
HS Code |
789024 |
| Chemical Formula | C16H8Cl4 |
| Molecular Weight | 360.046 g/mol |
| Appearance | White to off - white crystalline solid |
| Boiling Point | 425 - 430 °C |
| Melting Point | 141 - 143 °C |
| Solubility In Water | Very low solubility in water |
| Solubility In Organic Solvents | Soluble in many organic solvents like benzene, toluene |
| Vapor Pressure | Very low vapor pressure at room temperature |
| Density | 1.5 - 1.6 g/cm³ |
| Stability | Stable under normal conditions but may decompose on heating or in the presence of strong oxidizing agents |
As an accredited 2,2,O,P-Tetrachloroethylidenebisbenzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500 - gram bottles with tight - sealed lids for 2,2,o,p - tetrachloroethylidenebisbenzene. |
| Storage | 2,2',o,p -tetrachloroethylidenebisbenzene should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, open flames, and oxidizing agents. Store in tightly sealed containers to prevent leakage and exposure to air and moisture, which could potentially lead to chemical degradation or reaction. Ensure storage areas are in compliance with safety regulations. |
| Shipping | 2,2,o,p - tetrachloroethylidenebisbenzene is a chemical. Shipping must comply with strict hazardous material regulations. It should be properly packaged, labeled, and transported by carriers licensed for such chemicals to ensure safety. |
Competitive 2,2,O,P-Tetrachloroethylidenebisbenzene 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 2,2,O,P-Tetrachloroethylidenebisbenzene in China?
As a trusted 2,2,O,P-Tetrachloroethylidenebisbenzene 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 2,2,O,P-Tetrachloroethylidenebisbenzene 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 most common uses of 2,2 ', o, p' -tetrachloroethylenebisphenyl?
2% 2C2% 27% 2Co% 2Cp% 27-tetrafluoroethylene bisphenol, often written as 2,2-bis (4-hydroxy-3,5-difluorophenyl) propane, is an organic compound. It has a wide range of uses in many fields, as detailed below:
- ** Preparation of high-performance polymer materials **: This is the most important use of 2,2 ', o, p' -tetrafluoroethylene bisphenol. Due to its unique chemical structure, fluorine atoms and bisphenol structures, it can be used as a monomer to participate in polymerization reactions, such as the preparation of high-performance polymers such as polycarbonate, polyester, and polyether. The polymer produced has excellent thermal stability, chemical stability, weather resistance and low dielectric constant due to the introduction of fluorine atoms. In the aerospace field, the polymer materials prepared by it can be used to make aircraft fuselage parts, aero-engine parts, etc., with its hot topic stability and chemical stability, it can work normally in extreme environments; in the field of electronics and electrical appliances, it can be used to make printed circuit boards, electronic packaging materials, etc., using its low dielectric constant, it can improve the performance of electronic equipment.
- ** Synthesis of special coatings and adhesives **: 2,2 ', o, p' -tetrafluoroethylene bisphenol can be used as raw materials for the synthesis of special coatings and adhesives. After an appropriate chemical reaction, it is introduced into the structure of coatings and adhesives, giving the product excellent corrosion resistance, wear resistance and adhesion. In the field of marine engineering, the prepared coatings can be used for the protection of ship shells, offshore platforms and other facilities, effectively resisting seawater corrosion; in the field of automobile manufacturing, it can be used to manufacture automotive engine compartment coatings and adhesives. With its excellent high temperature resistance and corrosion resistance, it ensures the reliable operation of automotive parts in harsh environments.
- ** Pharmaceutical and pesticide intermediates **: In the field of pharmaceutical and pesticide synthesis, 2,2 ', o, p' -tetrafluoroethylene bisphenol also plays an important intermediate role. Due to its unique chemical structure, it can participate in a variety of organic synthesis reactions to construct compounds with biological activity. In pharmaceutical research and development, it can be used to synthesize new antibacterial and antiviral drugs; in the field of pesticides, it may help to develop efficient, low-toxicity and environmentally friendly pesticide varieties.
In short, 2,2 ', o, p' -tetrafluoroethylene bisphenol plays a key role in many fields such as materials science, chemical industry, medicine and pesticides due to its structural characteristics. With the continuous progress of science and technology, its application prospects will also be broader.
- ** Preparation of high-performance polymer materials **: This is the most important use of 2,2 ', o, p' -tetrafluoroethylene bisphenol. Due to its unique chemical structure, fluorine atoms and bisphenol structures, it can be used as a monomer to participate in polymerization reactions, such as the preparation of high-performance polymers such as polycarbonate, polyester, and polyether. The polymer produced has excellent thermal stability, chemical stability, weather resistance and low dielectric constant due to the introduction of fluorine atoms. In the aerospace field, the polymer materials prepared by it can be used to make aircraft fuselage parts, aero-engine parts, etc., with its hot topic stability and chemical stability, it can work normally in extreme environments; in the field of electronics and electrical appliances, it can be used to make printed circuit boards, electronic packaging materials, etc., using its low dielectric constant, it can improve the performance of electronic equipment.
- ** Synthesis of special coatings and adhesives **: 2,2 ', o, p' -tetrafluoroethylene bisphenol can be used as raw materials for the synthesis of special coatings and adhesives. After an appropriate chemical reaction, it is introduced into the structure of coatings and adhesives, giving the product excellent corrosion resistance, wear resistance and adhesion. In the field of marine engineering, the prepared coatings can be used for the protection of ship shells, offshore platforms and other facilities, effectively resisting seawater corrosion; in the field of automobile manufacturing, it can be used to manufacture automotive engine compartment coatings and adhesives. With its excellent high temperature resistance and corrosion resistance, it ensures the reliable operation of automotive parts in harsh environments.
- ** Pharmaceutical and pesticide intermediates **: In the field of pharmaceutical and pesticide synthesis, 2,2 ', o, p' -tetrafluoroethylene bisphenol also plays an important intermediate role. Due to its unique chemical structure, it can participate in a variety of organic synthesis reactions to construct compounds with biological activity. In pharmaceutical research and development, it can be used to synthesize new antibacterial and antiviral drugs; in the field of pesticides, it may help to develop efficient, low-toxicity and environmentally friendly pesticide varieties.
In short, 2,2 ', o, p' -tetrafluoroethylene bisphenol plays a key role in many fields such as materials science, chemical industry, medicine and pesticides due to its structural characteristics. With the continuous progress of science and technology, its application prospects will also be broader.
What are the effects of 2,2 ', o, p' -tetrachloroethylenebisphenyl on the environment?
2% 2C2% 27% 2Co% 2Cp% 27 - The impact of tetrafluoroethylene bisphenol on the environment is related to all ecological things, and its situation is complicated. Today, it is said in ancient Chinese.
This tetrafluoroethylene bisphenol is a chemical product and has a wide range of industrial uses. However, it enters the environment and causes a lot of harm. The first to bear the brunt is the water ecology. If this thing flows into rivers, lakes and seas, the aquatic life will suffer from it. Fish, shrimp, shellfish and algae, etc., may be hindered by physiological disorders. The development of larvae is prone to aberration, resulting in a gradual decrease in the population and a disruption of the water ecological balance.
Furthermore, the soil is also affected by it. If the waste water and residue containing this substance seep into the soil, the fertility of the soil will decrease, and the microbial community will be disordered. Plants depend on the soil, and the soil is damaged, and the growth of plants will also be affected. Or the root system is underdeveloped, or the leaf color is abnormal, and the quality of the fruit is reduced, which is a worry for the agricultural mulberry industry.
And this substance also has traces in the atmosphere. If the production process is not handled properly, its volatiles will enter the atmosphere and merge with other pollutants, causing air quality to deteriorate. For humans, during respiration, harmful gases enter the body, damaging the respiratory tract, lungs and other organs, and the risk of disease increases greatly.
And it is difficult to degrade in the environment, and it persists for a long time. The impact is more and more profound. Although the damage is not obvious for a while, the damage to the ecosystem may be difficult to repair. Therefore, the production, use and disposal of tetrafluoroethylene bisphenol should be done with caution, and it must not be caused by its temporary convenience, which will cause disasters to the environment in future generations and affect all living things.
This tetrafluoroethylene bisphenol is a chemical product and has a wide range of industrial uses. However, it enters the environment and causes a lot of harm. The first to bear the brunt is the water ecology. If this thing flows into rivers, lakes and seas, the aquatic life will suffer from it. Fish, shrimp, shellfish and algae, etc., may be hindered by physiological disorders. The development of larvae is prone to aberration, resulting in a gradual decrease in the population and a disruption of the water ecological balance.
Furthermore, the soil is also affected by it. If the waste water and residue containing this substance seep into the soil, the fertility of the soil will decrease, and the microbial community will be disordered. Plants depend on the soil, and the soil is damaged, and the growth of plants will also be affected. Or the root system is underdeveloped, or the leaf color is abnormal, and the quality of the fruit is reduced, which is a worry for the agricultural mulberry industry.
And this substance also has traces in the atmosphere. If the production process is not handled properly, its volatiles will enter the atmosphere and merge with other pollutants, causing air quality to deteriorate. For humans, during respiration, harmful gases enter the body, damaging the respiratory tract, lungs and other organs, and the risk of disease increases greatly.
And it is difficult to degrade in the environment, and it persists for a long time. The impact is more and more profound. Although the damage is not obvious for a while, the damage to the ecosystem may be difficult to repair. Therefore, the production, use and disposal of tetrafluoroethylene bisphenol should be done with caution, and it must not be caused by its temporary convenience, which will cause disasters to the environment in future generations and affect all living things.
What are the physical properties of 2,2 ', o, p' -tetrachloroethylenediphenyl
2% 2C2% 27% 2Co% 2Cp% 27 - tetrafluoroethylene bisphenol, this substance is an organic compound. Its physical properties are quite characteristic, let me tell you one by one.
Looking at its shape, under room temperature and pressure, it is mostly in the state of white crystalline powder, which makes it easy to handle and store. Its melting point is relatively high, about 167 - 175 ° C. Such a high melting point indicates strong intermolecular forces and relatively stable structure.
Furthermore, its solubility is also regular. It is difficult to dissolve in water because of its molecular structure, hydrophobic groups account for a large proportion, and the force between water molecules is weak, so it is difficult to melt with water. However, in organic solvents, such as acetone, dichloromethane, etc., there is a certain solubility. This property is of great significance in the fields of organic synthesis, material preparation, etc., which is convenient for them to participate in reactions in different solvent systems or process as raw materials.
Also discusses volatility, because of its relatively large molecular mass, strong intermolecular forces, and very low volatility. This property allows it to exist relatively stably under normal conditions, and it is not easy to be lost due to volatilization, which is conducive to long-term storage and use.
In addition, the stability of this substance is quite high. Due to the presence of fluorine atoms in the molecule, the carbon-fluorine bond energy is large, which endows it with good chemical stability, can resist the erosion of many chemical reagents, and can maintain its own structure and properties under certain conditions.
In summary, 2% 2C2% 27% 2Co% 2Cp% 27 -tetrafluoroethylene bisphenol has important applications in many fields such as chemical industry and materials due to its white crystalline powder form, high melting point, specific solubility, low volatility and good stability.
Looking at its shape, under room temperature and pressure, it is mostly in the state of white crystalline powder, which makes it easy to handle and store. Its melting point is relatively high, about 167 - 175 ° C. Such a high melting point indicates strong intermolecular forces and relatively stable structure.
Furthermore, its solubility is also regular. It is difficult to dissolve in water because of its molecular structure, hydrophobic groups account for a large proportion, and the force between water molecules is weak, so it is difficult to melt with water. However, in organic solvents, such as acetone, dichloromethane, etc., there is a certain solubility. This property is of great significance in the fields of organic synthesis, material preparation, etc., which is convenient for them to participate in reactions in different solvent systems or process as raw materials.
Also discusses volatility, because of its relatively large molecular mass, strong intermolecular forces, and very low volatility. This property allows it to exist relatively stably under normal conditions, and it is not easy to be lost due to volatilization, which is conducive to long-term storage and use.
In addition, the stability of this substance is quite high. Due to the presence of fluorine atoms in the molecule, the carbon-fluorine bond energy is large, which endows it with good chemical stability, can resist the erosion of many chemical reagents, and can maintain its own structure and properties under certain conditions.
In summary, 2% 2C2% 27% 2Co% 2Cp% 27 -tetrafluoroethylene bisphenol has important applications in many fields such as chemical industry and materials due to its white crystalline powder form, high melting point, specific solubility, low volatility and good stability.
What are the chemical properties of 2,2 ', o, p' -tetrachloroethylenediphenyl
2% 2C2% 27% 2Co% 2Cp% 27 -tetrafluoroethylene bisphenol, its chemical properties are as follows:
This compound has unique stability. Due to its molecular structure containing fluorine atoms, the electronegativity of fluorine atoms is extremely high, and the C-F bond energy formed is quite large, resulting in excellent chemical stability and can resist the erosion of many chemical reagents. In common acid-base environments, it is more stable than many ordinary organic compounds, and is not prone to hydrolysis, oxidation and other reactions.
It also has excellent heat resistance. Due to the high bond energy of C-F, high energy is required to destroy its molecular structure. Therefore, the melting point and boiling point of the substance are relatively high, and it can maintain its own structure and properties stable in high temperature environments. It is not easy to decompose or undergo phase transformation. This characteristic makes it advantageous in high temperature processes or high temperature application scenarios.
Furthermore, it has low surface energy. The presence of fluorine atoms reduces the surface energy of the molecule, causing it to exhibit good hydrophobic and oil-phobic properties. The surface of the substance is not easily infiltrated by liquids such as water and oil, and can be used to prepare materials with self-cleaning and anti-fouling functions.
In addition, the compound also has certain electrical properties. The particularity of the molecular structure endows it with unique dielectric properties, which can be used to fabricate specific electrical components and has potential application value in the field of electronics.
Because of the bisphenol structural unit in its structure, it has a certain reactivity. Under appropriate conditions, it can participate in organic reactions such as esterification and etherification, and its properties can be regulated by chemical modification to meet the needs of different fields.
This compound has unique stability. Due to its molecular structure containing fluorine atoms, the electronegativity of fluorine atoms is extremely high, and the C-F bond energy formed is quite large, resulting in excellent chemical stability and can resist the erosion of many chemical reagents. In common acid-base environments, it is more stable than many ordinary organic compounds, and is not prone to hydrolysis, oxidation and other reactions.
It also has excellent heat resistance. Due to the high bond energy of C-F, high energy is required to destroy its molecular structure. Therefore, the melting point and boiling point of the substance are relatively high, and it can maintain its own structure and properties stable in high temperature environments. It is not easy to decompose or undergo phase transformation. This characteristic makes it advantageous in high temperature processes or high temperature application scenarios.
Furthermore, it has low surface energy. The presence of fluorine atoms reduces the surface energy of the molecule, causing it to exhibit good hydrophobic and oil-phobic properties. The surface of the substance is not easily infiltrated by liquids such as water and oil, and can be used to prepare materials with self-cleaning and anti-fouling functions.
In addition, the compound also has certain electrical properties. The particularity of the molecular structure endows it with unique dielectric properties, which can be used to fabricate specific electrical components and has potential application value in the field of electronics.
Because of the bisphenol structural unit in its structure, it has a certain reactivity. Under appropriate conditions, it can participate in organic reactions such as esterification and etherification, and its properties can be regulated by chemical modification to meet the needs of different fields.
What is the metabolic process of 2,2 ', o, p' -tetrachloroethylenedibenzene in the human body?
2% 2C2% 27% 2Co% 2Cp% 27 -tetrachlorodiethylaminobiphenyl is in the human body, and its metabolic process is particularly complex. This compound enters the body, first through the digestive system, and gradually enters the blood circulation from the gastrointestinal tract through the action of gastric acid and various enzymes.
Blood circulation is carried all over the body. When it reaches the liver, the liver is like a precision chemical workshop. Many enzymes on it, such as the cytochrome P450 family, modify it. Or perform an oxidation reaction, adding oxygen atoms to its molecular structure, causing its polarity to increase and it is easily soluble in water; or perform a reduction reaction, causing some chemical bonds to break and recombine.
Preliminary metabolites pass through the liver and follow the blood to the kidneys. The kidneys are like filters, filtering out the soluble metabolites, forming urine with water, etc., and excreting them from the body. However, there are also some metabolites, which are difficult to be easily metabolized by the liver and kidney due to their special structures, or combine with macromolecules such as proteins and nucleic acids in the body. After binding, the structure and function of macromolecules may be changed, which in turn affects the normal physiological activities of cells and causes adverse effects in the body.
And the metabolic process is affected by individual differences. Age, gender, genetic factors, health status, etc., can all make the metabolic rate different from the product. Young children and the elderly have weak ability to metabolize this compound due to the incomplete or declining function of metabolic organs such as liver and kidney; while genetic factors cause poor enzyme activity in individuals, which also makes the metabolic process different. Therefore, the metabolism of 2% 2C2% 27% 2Co% 2Cp% 27 -tetrachlorodiethylamino bibenzene in the human body is intertwined due to various factors, showing a complex state.
Blood circulation is carried all over the body. When it reaches the liver, the liver is like a precision chemical workshop. Many enzymes on it, such as the cytochrome P450 family, modify it. Or perform an oxidation reaction, adding oxygen atoms to its molecular structure, causing its polarity to increase and it is easily soluble in water; or perform a reduction reaction, causing some chemical bonds to break and recombine.
Preliminary metabolites pass through the liver and follow the blood to the kidneys. The kidneys are like filters, filtering out the soluble metabolites, forming urine with water, etc., and excreting them from the body. However, there are also some metabolites, which are difficult to be easily metabolized by the liver and kidney due to their special structures, or combine with macromolecules such as proteins and nucleic acids in the body. After binding, the structure and function of macromolecules may be changed, which in turn affects the normal physiological activities of cells and causes adverse effects in the body.
And the metabolic process is affected by individual differences. Age, gender, genetic factors, health status, etc., can all make the metabolic rate different from the product. Young children and the elderly have weak ability to metabolize this compound due to the incomplete or declining function of metabolic organs such as liver and kidney; while genetic factors cause poor enzyme activity in individuals, which also makes the metabolic process different. Therefore, the metabolism of 2% 2C2% 27% 2Co% 2Cp% 27 -tetrachlorodiethylamino bibenzene in the human body is intertwined due to various factors, showing a complex state.
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