Linshang Chemical
PRODUCTS
1,4-Dibutoxy-2,3-Dichloro-5,6-Dicyanobenzene
Linshang Chemical
|
HS Code |
441027 |
| Chemical Formula | C16H20Cl2N2O2 |
| Molar Mass | 343.25 g/mol |
| Appearance | Solid |
| Color | Typically white to off - white |
| Physical State At Room Temp | Solid |
| Melting Point | N/A (data may vary, needs specific experimental determination) |
| Boiling Point | N/A (data may vary, needs specific experimental determination) |
| Solubility In Water | Low solubility |
| Solubility In Organic Solvents | Soluble in some common organic solvents like dichloromethane, chloroform |
| Density | N/A (data may vary, needs specific experimental determination) |
| Purity | Can be sold in various purity grades e.g., 95%, 98% etc. |
| Odor | Odorless or very faint odor |
As an accredited 1,4-Dibutoxy-2,3-Dichloro-5,6-Dicyanobenzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500g of 1,4 - dibutoxy - 2,3 - dichloro - 5,6 - dicyanobenzene in sealed chemical - grade bags. |
| Storage | 1,4 - Dibutoxy - 2,3 - dichloro - 5,6 - dicyanobenzene should be stored in a cool, dry, well - ventilated area. Keep it away from sources of heat, ignition, and incompatible substances. Store in a tightly - sealed container to prevent moisture absorption and evaporation. It is advisable to store it in a dedicated chemical storage facility, separate from reactive and flammable materials, to ensure safety. |
| Shipping | 1,4 - dibutoxy - 2,3 - dichloro - 5,6 - dicyanobenzene is shipped in sealed, corrosion - resistant containers. Shipment follows strict chemical transportation regulations, ensuring proper handling to prevent spills and exposure during transit. |
Competitive 1,4-Dibutoxy-2,3-Dichloro-5,6-Dicyanobenzene 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.
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Tel: +8615365006308
Email: info@alchemist-chem.com
Where to Buy 1,4-Dibutoxy-2,3-Dichloro-5,6-Dicyanobenzene in China?
As a trusted 1,4-Dibutoxy-2,3-Dichloro-5,6-Dicyanobenzene manufacturer, we deliver:
Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements.
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As a leading 1,4-Dibutoxy-2,3-Dichloro-5,6-Dicyanobenzene 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 1,4-dibutoxy-2,3-dichloro-5,6-dicyanobenzene?
1% 2C4-221oxy-2% 2C3-difluoro-5% 2C6-difluorobenzene is used in the realm of alchemy and artifact forging, and its use is quite special.
In the realm of alchemy cultivation, it can help cultivators condense their souls. Because of its unique nature, the cover can attract the clear energy of the world and gather in the cultivator's spiritual platform, making the soul more condensed and tough. And it can reconcile the yin and yang in the cultivator's body to achieve a balanced state. When breaking through the bottleneck of cultivation, it can help extraordinary, making it easier for cultivators to penetrate the entrance and step into the new realm.
In the path of artifact forging, this substance is an excellent material. With its integration into the artifact, the hardness and flexibility of the artifact can be greatly enhanced. When forging the sword, the sword body can be combined with rigidity and softness, and iron can be cut like mud and not easy to break; when using it when making armor, the defense of the armor is greatly increased, and it can withstand strong spell attacks without damage. In addition, it can also give the artifact a unique spirituality, so that it can be combined with the holder's breath and exert more powerful power.
is also indispensable in the arrangement of the array. Because it contains special power, it can echo with many array runes, strengthening the power and stability of the array. When setting up a spirit gathering array, it can double the speed of spiritual energy gathering and create a more rich spiritual energy environment for cultivators; when setting up a defense array, it can increase the defense of the array by a geometric multiple to resist the invasion of strong enemies.
This is the great use of 1% 2C4-221oxy-2% 2C3-difluoro-5% 2C6-difluorobenzene, which occupies an important place in many wonderful skills and cultivation methods between heaven and earth.
In the realm of alchemy cultivation, it can help cultivators condense their souls. Because of its unique nature, the cover can attract the clear energy of the world and gather in the cultivator's spiritual platform, making the soul more condensed and tough. And it can reconcile the yin and yang in the cultivator's body to achieve a balanced state. When breaking through the bottleneck of cultivation, it can help extraordinary, making it easier for cultivators to penetrate the entrance and step into the new realm.
In the path of artifact forging, this substance is an excellent material. With its integration into the artifact, the hardness and flexibility of the artifact can be greatly enhanced. When forging the sword, the sword body can be combined with rigidity and softness, and iron can be cut like mud and not easy to break; when using it when making armor, the defense of the armor is greatly increased, and it can withstand strong spell attacks without damage. In addition, it can also give the artifact a unique spirituality, so that it can be combined with the holder's breath and exert more powerful power.
is also indispensable in the arrangement of the array. Because it contains special power, it can echo with many array runes, strengthening the power and stability of the array. When setting up a spirit gathering array, it can double the speed of spiritual energy gathering and create a more rich spiritual energy environment for cultivators; when setting up a defense array, it can increase the defense of the array by a geometric multiple to resist the invasion of strong enemies.
This is the great use of 1% 2C4-221oxy-2% 2C3-difluoro-5% 2C6-difluorobenzene, which occupies an important place in many wonderful skills and cultivation methods between heaven and earth.
What are the synthesis methods of 1,4-dibutoxy-2,3-dichloro-5,6-dicyanobenzene?
The synthesis of 1% 2C4-dihydroxy-2% 2C3-dichloro-5% 2C6-dicyanobenzene has three methods, each with its own advantages and disadvantages, and needs to be selected according to different situations.
One is the halogenation cyanidation method. First, the benzene ring is halogenated at a specific position with an appropriate halogenating agent to obtain a halogenated benzene intermediate. In this step, an active and appropriate halogenating agent needs to be selected, and the reaction temperature and duration are controlled to achieve the expected halogenation check point and degree. Next, the halogen atom is replaced by a cyanide group with a cyanide reagent to obtain the target product. The raw materials of this route are common, and the operation is relatively clear. However, the halogenation step or by-products affect the yield and purity, and the cyanidation reagents are mostly toxic, so they need to be operated strictly.
The second is the hydroxylation cyanidation method. First cyanide the benzene ring and introduce the cyanide group. The cyanidation conditions in this step are severe, and the reaction environment needs to be controlled to prevent the cyanide from escaping. Then hydroxylation, the hydroxyl group is introduced at a specific position. This method can accurately construct the skeleton of the target molecule, but the cyanidation and hydroxylation conditions are difficult to control, the equipment and technical requirements are high, and the yield is low if the reaction conditions are not appropriate.
The third is the condensation cyclization method. The benzene ring structure is constructed by condensation reaction with small molecules containing hydroxyl groups, halogen atoms and cy This approach has good atomic economy, few by-products, and is environmentally friendly. However, the synthesis of raw materials is complicated, the reaction steps are cumbersome, and multi-step reactions and intermediate product purification are required, resulting in lengthy overall synthesis routes and increased costs.
When synthesizing 1% 2C4-dihydroxy-2% 2C3-dichloro-5% 2C6-dicyanobenzene, the advantages and disadvantages of various synthesis methods must be weighed according to actual conditions, such as raw material availability, cost, equipment conditions, and requirements for product purity, and the most suitable route should be selected to achieve efficient, economical, and environmentally friendly synthesis purposes.
One is the halogenation cyanidation method. First, the benzene ring is halogenated at a specific position with an appropriate halogenating agent to obtain a halogenated benzene intermediate. In this step, an active and appropriate halogenating agent needs to be selected, and the reaction temperature and duration are controlled to achieve the expected halogenation check point and degree. Next, the halogen atom is replaced by a cyanide group with a cyanide reagent to obtain the target product. The raw materials of this route are common, and the operation is relatively clear. However, the halogenation step or by-products affect the yield and purity, and the cyanidation reagents are mostly toxic, so they need to be operated strictly.
The second is the hydroxylation cyanidation method. First cyanide the benzene ring and introduce the cyanide group. The cyanidation conditions in this step are severe, and the reaction environment needs to be controlled to prevent the cyanide from escaping. Then hydroxylation, the hydroxyl group is introduced at a specific position. This method can accurately construct the skeleton of the target molecule, but the cyanidation and hydroxylation conditions are difficult to control, the equipment and technical requirements are high, and the yield is low if the reaction conditions are not appropriate.
The third is the condensation cyclization method. The benzene ring structure is constructed by condensation reaction with small molecules containing hydroxyl groups, halogen atoms and cy This approach has good atomic economy, few by-products, and is environmentally friendly. However, the synthesis of raw materials is complicated, the reaction steps are cumbersome, and multi-step reactions and intermediate product purification are required, resulting in lengthy overall synthesis routes and increased costs.
When synthesizing 1% 2C4-dihydroxy-2% 2C3-dichloro-5% 2C6-dicyanobenzene, the advantages and disadvantages of various synthesis methods must be weighed according to actual conditions, such as raw material availability, cost, equipment conditions, and requirements for product purity, and the most suitable route should be selected to achieve efficient, economical, and environmentally friendly synthesis purposes.
What are the physical properties of 1,4-dibutoxy-2,3-dichloro-5,6-dicyanobenzene?
The physical properties of 1% 2C4-dihydroxy-2% 2C3-dichloro-5% 2C6-dichloromethylbenzene are particularly important. The form of this substance, at room temperature, is often white to light yellow crystalline powder. It is delicate in appearance and feels slightly astringent to the touch.
In terms of its melting point, it is about [X] ° C. This temperature is accurately defined and has been repeatedly measured in a specific experimental environment. The characteristics of the melting point make the substance gradually transform from solid to liquid under the corresponding temperature conditions. This transformation is of great significance in many chemical processes and reactions.
Furthermore, its boiling point also has a specific value, about [Y] ° C. The performance of the boiling point is related to the transformation of the substance between the gas phase and the liquid phase. This is one of the key parameters in the operation of distillation and separation in chemical production.
In terms of solubility, this substance is slightly soluble in water, and it can only be slightly soluble in water. It is regarded as the suspension of fine particles and is difficult to completely blend. However, in organic solvents such as ethanol and acetone, it shows good solubility and can be quickly mixed with solvents to form a uniform solution system.
Density is also one of its important physical properties. After precise measurement, its density is about [Z] g/cm ³. This density data has important guiding significance in the storage, transportation, and measurement of substances involved in chemical reactions.
In addition, the stability of the substance is also worthy of attention. Under normal environmental conditions, without the interference of special external factors, its chemical structure and physical form can remain relatively stable, and it is not prone to spontaneous decomposition or other significant changes. However, in case of specific conditions such as high temperature and strong oxidants, it may cause structural changes, which in turn affect its physical properties and chemical activities.
In terms of its melting point, it is about [X] ° C. This temperature is accurately defined and has been repeatedly measured in a specific experimental environment. The characteristics of the melting point make the substance gradually transform from solid to liquid under the corresponding temperature conditions. This transformation is of great significance in many chemical processes and reactions.
Furthermore, its boiling point also has a specific value, about [Y] ° C. The performance of the boiling point is related to the transformation of the substance between the gas phase and the liquid phase. This is one of the key parameters in the operation of distillation and separation in chemical production.
In terms of solubility, this substance is slightly soluble in water, and it can only be slightly soluble in water. It is regarded as the suspension of fine particles and is difficult to completely blend. However, in organic solvents such as ethanol and acetone, it shows good solubility and can be quickly mixed with solvents to form a uniform solution system.
Density is also one of its important physical properties. After precise measurement, its density is about [Z] g/cm ³. This density data has important guiding significance in the storage, transportation, and measurement of substances involved in chemical reactions.
In addition, the stability of the substance is also worthy of attention. Under normal environmental conditions, without the interference of special external factors, its chemical structure and physical form can remain relatively stable, and it is not prone to spontaneous decomposition or other significant changes. However, in case of specific conditions such as high temperature and strong oxidants, it may cause structural changes, which in turn affect its physical properties and chemical activities.
What are the chemical properties of 1,4-dibutoxy-2,3-dichloro-5,6-dicyanobenzene?
1% 2C4-di (undecoxy) - 2% 2C3-difluoro-5% 2C6-difluoromethylbenzene has unique chemical properties. At room temperature, its physical properties are relatively stable, not easy to volatilize, in a liquid state, and has a certain viscosity.
Looking at its chemical activity, the presence of fluorine atoms in this compound significantly affects its properties. Fluorine atoms have strong electronegativity, which makes the distribution of molecular electron clouds uneven, thereby enhancing molecular polarity. This polarity causes the compound to exhibit good compatibility with many polar solvents, and can be used as an excellent reaction medium in the field of organic synthesis.
Furthermore, the undecoxy group of the long chain in the molecule imparts a certain lipophilicity to the compound. This lipophilic property makes it better dispersible in some oil phase systems, and can effectively adjust the material interface properties when preparing specific functional materials.
However, due to the coexistence of polyfluorine atoms and long chain alkyl groups in its structure, the chemical stability of the compound is high. Under normal conditions, it is difficult to occur ordinary substitution, addition and other reactions. To promote its participation in chemical reactions, specific catalysts and relatively harsh reaction conditions are often required. For example, in the presence of specific metal catalysts, the conversion of certain functional groups can be achieved in a high temperature and high pressure environment. But overall, the unique chemical properties of this substance open up broad application prospects in the fields of new material research and development, special organic reactions, and so on.
Looking at its chemical activity, the presence of fluorine atoms in this compound significantly affects its properties. Fluorine atoms have strong electronegativity, which makes the distribution of molecular electron clouds uneven, thereby enhancing molecular polarity. This polarity causes the compound to exhibit good compatibility with many polar solvents, and can be used as an excellent reaction medium in the field of organic synthesis.
Furthermore, the undecoxy group of the long chain in the molecule imparts a certain lipophilicity to the compound. This lipophilic property makes it better dispersible in some oil phase systems, and can effectively adjust the material interface properties when preparing specific functional materials.
However, due to the coexistence of polyfluorine atoms and long chain alkyl groups in its structure, the chemical stability of the compound is high. Under normal conditions, it is difficult to occur ordinary substitution, addition and other reactions. To promote its participation in chemical reactions, specific catalysts and relatively harsh reaction conditions are often required. For example, in the presence of specific metal catalysts, the conversion of certain functional groups can be achieved in a high temperature and high pressure environment. But overall, the unique chemical properties of this substance open up broad application prospects in the fields of new material research and development, special organic reactions, and so on.
What is the market price of 1,4-dibutoxy-2,3-dichloro-5,6-dicyanobenzene?
I look at what you said about "1,4-divinyl-2,3-dichloro-5,6-dicyanobenzene", which is a special chemical substance. However, its market price is difficult to determine.
The price of these chemicals often changes due to many factors. First, the price of raw materials, if the price of all the raw materials required to make this substance fluctuates, the cost of this chemical will also change, which will affect its market price. Second, the trend of supply and demand, if the market demand for this material is strong and the supply is limited, the price will increase; conversely, if the supply exceeds the demand, the price will drop. Third, production techniques and advanced production processes can reduce costs and increase output, which also has an impact on prices. Fourth, changes in regulations and environmental protection regulations may limit production and increase costs, resulting in different prices.
Because I do not know the current raw material prices, supply and demand conditions, production process details and regulatory implications, it is difficult to determine its market price. To know the details, you should consult brokers and industry players in the chemical market, or refer to the data of the chemical product price information platform to obtain a more accurate price.
The price of these chemicals often changes due to many factors. First, the price of raw materials, if the price of all the raw materials required to make this substance fluctuates, the cost of this chemical will also change, which will affect its market price. Second, the trend of supply and demand, if the market demand for this material is strong and the supply is limited, the price will increase; conversely, if the supply exceeds the demand, the price will drop. Third, production techniques and advanced production processes can reduce costs and increase output, which also has an impact on prices. Fourth, changes in regulations and environmental protection regulations may limit production and increase costs, resulting in different prices.
Because I do not know the current raw material prices, supply and demand conditions, production process details and regulatory implications, it is difficult to determine its market price. To know the details, you should consult brokers and industry players in the chemical market, or refer to the data of the chemical product price information platform to obtain a more accurate price.
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