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Benzene, 1-Chloro-2,5-Diethoxy-4-Nitro-
Linshang Chemical
|
HS Code |
721433 |
| Name | Benzene, 1 - Chloro - 2,5 - Diethoxy - 4 - Nitro - |
| Chemical Formula | C10H12ClNO5 |
| Molar Mass | 261.66 g/mol |
| Appearance | Likely a solid (usually nitro - containing aromatic compounds are solids) |
| Physical State At Room Temperature | Solid |
| Odor | May have a pungent or characteristic aromatic odor |
| Solubility In Water | Low solubility (aromatic and nitro - containing compounds are generally hydrophobic) |
| Solubility In Organic Solvents | Soluble in common organic solvents like ethanol, acetone, dichloromethane |
| Melting Point | Specific value would need experimental determination but generally higher for aromatic nitro - compounds |
| Boiling Point | Higher boiling point due to presence of polar groups and aromatic structure |
| Stability | Can be relatively stable under normal conditions but nitro group may make it sensitive to heat, shock, or strong reducing agents |
| Reactivity | Can participate in substitution reactions due to the presence of the chloro - group and reactions related to the nitro and alkoxy groups |
As an accredited Benzene, 1-Chloro-2,5-Diethoxy-4-Nitro- factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500g of 1 - chloro - 2,5 - diethoxy - 4 - nitro - benzene in sealed chemical - grade container. |
| Storage | Store "Benzene, 1 - chloro - 2,5 - diethoxy - 4 - nitro -" in a cool, well - ventilated area, away from heat sources and ignition points. Keep it in a tightly sealed container made of corrosion - resistant material, as it may react with some substances. Isolate from oxidizing agents, reducing agents, and other incompatible chemicals to prevent potential reactions. |
| Shipping | The chemical "Benzene, 1 - chloro - 2,5 - diethoxy - 4 - nitro -" must be shipped in accordance with strict hazardous materials regulations. Use appropriate, labeled containers to prevent leakage during transit. |
Competitive Benzene, 1-Chloro-2,5-Diethoxy-4-Nitro- 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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As a leading Benzene, 1-Chloro-2,5-Diethoxy-4-Nitro- supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.
What is the Chinese name of this compound?
This compound is called "saltpeter". Saltpeter is an important raw material for alchemy and gunpowder in ancient times, and is recorded in many ancient books.
According to "Tiangong Kaiwu": "Where nitrate is produced, Huayi is produced, and China specializes in the northwest." This statement points out that the origin of saltpeter is mostly in the northwest. It is also said: "Its quality is amorphous, and its color also changes with the soil, whether yellow or white, or red or black." This saltpeter has a shape and color, and has no fixed shape, and its color varies according to the soil where it is produced.
The book also mentions its extraction method: "When the nitrate is scraped and swept, it is soaked in water in a tank overnight, and the filth and miscellaneous things float on the surface. When it is taken away, it is then fried in a kettle." This is the step of extracting saltpeter, first soaking in water to remove impurities, and then frying in a kettle.
Saltpeter has important uses in military, production and life. In the military, it is a key ingredient of gunpowder. In the words of "Tiangong Kaiwu" and gunpowder formula, the proportion of saltpeter is quite high, which greatly increases the explosive power of gunpowder and plays a key role in war. In production and life, saltpeter can be used for alchemy. When pursuing the art of longevity, alchemists often use saltpeter to participate in the refining of medicinal pills. In addition, saltpeter is also used in some food processing and pharmaceutical fields, which shows its importance.
Saltpeter has had a profound impact on ancient production, life and military activities. The records of "Tiangong Kaiwu" provide precious materials for future generations to understand saltpeter.
According to "Tiangong Kaiwu": "Where nitrate is produced, Huayi is produced, and China specializes in the northwest." This statement points out that the origin of saltpeter is mostly in the northwest. It is also said: "Its quality is amorphous, and its color also changes with the soil, whether yellow or white, or red or black." This saltpeter has a shape and color, and has no fixed shape, and its color varies according to the soil where it is produced.
The book also mentions its extraction method: "When the nitrate is scraped and swept, it is soaked in water in a tank overnight, and the filth and miscellaneous things float on the surface. When it is taken away, it is then fried in a kettle." This is the step of extracting saltpeter, first soaking in water to remove impurities, and then frying in a kettle.
Saltpeter has important uses in military, production and life. In the military, it is a key ingredient of gunpowder. In the words of "Tiangong Kaiwu" and gunpowder formula, the proportion of saltpeter is quite high, which greatly increases the explosive power of gunpowder and plays a key role in war. In production and life, saltpeter can be used for alchemy. When pursuing the art of longevity, alchemists often use saltpeter to participate in the refining of medicinal pills. In addition, saltpeter is also used in some food processing and pharmaceutical fields, which shows its importance.
Saltpeter has had a profound impact on ancient production, life and military activities. The records of "Tiangong Kaiwu" provide precious materials for future generations to understand saltpeter.
What are the physical properties of this compound?
This compound has a variety of physical properties. Its color state may be crystal clear or fine powder, which can be seen as its unique appearance. Its melting point is the key physical property. At a specific temperature, the compound gradually melts from the solid state to the liquid state. This temperature range is accurate and measurable, depending on the characteristics of the compound. The boiling point cannot be ignored. When the temperature rises to a certain exact value, the compound changes from liquid state to gaseous state, completing the phase change.
Solubility is also an important physical property. In water, it may be very soluble and blend with water to form a uniform and stable solution; or only slightly soluble, only a small amount can be dispersed in water; even more, it is completely insoluble in water and forms its own phase in water, separated from water. In organic solvents, the solubility is also different, or it can be miscible with some organic solvents in any ratio, showing good affinity; or it only has a certain solubility in specific organic solvents.
Density is also related to its physical properties. Compared with water, if the density is greater than water, it will sink to the bottom in the water; if it is less than water, it will float on the water surface. The value of density can be accurately determined by specific experimental means, providing an important basis for the cognition of compounds.
In addition, its hardness is also a consideration factor. Or the texture is hard and can withstand a certain external force without breaking easily; or the texture is soft and deforms with a little external force. The gloss also has characteristics, such as a dazzling metallic luster or a soft non-metallic luster. All these characteristics are determined by the internal structure and composition of the compound, which together outline the unique physical properties of the compound.
Solubility is also an important physical property. In water, it may be very soluble and blend with water to form a uniform and stable solution; or only slightly soluble, only a small amount can be dispersed in water; even more, it is completely insoluble in water and forms its own phase in water, separated from water. In organic solvents, the solubility is also different, or it can be miscible with some organic solvents in any ratio, showing good affinity; or it only has a certain solubility in specific organic solvents.
Density is also related to its physical properties. Compared with water, if the density is greater than water, it will sink to the bottom in the water; if it is less than water, it will float on the water surface. The value of density can be accurately determined by specific experimental means, providing an important basis for the cognition of compounds.
In addition, its hardness is also a consideration factor. Or the texture is hard and can withstand a certain external force without breaking easily; or the texture is soft and deforms with a little external force. The gloss also has characteristics, such as a dazzling metallic luster or a soft non-metallic luster. All these characteristics are determined by the internal structure and composition of the compound, which together outline the unique physical properties of the compound.
What are the chemical properties of this compound?
This compound is bizarre in nature and has all kinds of characteristics. Its color is pure and positive, or as white as frost and snow, or as red as the red sun, and it is magnificent and eye-catching. Its quality is as strong as gold and stone, and it has a sound when hit, although the sharp blade is added, it is difficult to leave traces; or it is as soft as plaster, the tentacles are warm and moist, and it can be shaped at will, like a spiritual object.
Its nature is lively, and in hot and dry places, it is easy to combine with various substances. In case of fire, it emits brilliant light, and there are strange changes, or five-color smoke, or a rich fragrance. And in cold and humid places, its nature is slow, like a deep sleep, difficult to change.
In addition, this compound enters the water, or floats on it, like a light feather; or sinks to the bottom, like the weight of iron stone. If it encounters boiling water, it has a wonderful image, or turns into bubbles, rises leisurely, and dissipates into invisibility; or gathers in one place, forms crystals, exquisite and transparent, and is very beautiful.
Furthermore, under light, it also has different manifestations. Strong light shines directly, and it may reflect light, shining in the eyes, making it impossible to look directly; if it is shone by dim light, it will glow faintly, like a pearl in the dark night, adding a touch of fantasy to the surroundings.
Looking at its various characteristics, it is really a magical thing between heaven and earth. It shows the wonders of nature in the change, which is breathtaking and shows the endless mysteries of creation.
Its nature is lively, and in hot and dry places, it is easy to combine with various substances. In case of fire, it emits brilliant light, and there are strange changes, or five-color smoke, or a rich fragrance. And in cold and humid places, its nature is slow, like a deep sleep, difficult to change.
In addition, this compound enters the water, or floats on it, like a light feather; or sinks to the bottom, like the weight of iron stone. If it encounters boiling water, it has a wonderful image, or turns into bubbles, rises leisurely, and dissipates into invisibility; or gathers in one place, forms crystals, exquisite and transparent, and is very beautiful.
Furthermore, under light, it also has different manifestations. Strong light shines directly, and it may reflect light, shining in the eyes, making it impossible to look directly; if it is shone by dim light, it will glow faintly, like a pearl in the dark night, adding a touch of fantasy to the surroundings.
Looking at its various characteristics, it is really a magical thing between heaven and earth. It shows the wonders of nature in the change, which is breathtaking and shows the endless mysteries of creation.
In which fields is this compound used?
This compound is wonderfully useful in many fields. In the field of medicine, it can be used as a key ingredient in drugs. Because of its specific chemical characteristics and biological activity, it can precisely act on specific targets in the human body, or assist in the treatment and prevention of diseases. For example, in some compound drugs, this compound can be delicately combined to help regulate human physiological functions, and may have significant effects on common diseases such as cough and fever.
In industrial production, this compound is also indispensable. In the field of material synthesis, it can be used as a catalyst to accelerate the process of specific chemical reactions, improve production efficiency and product quality. In the fine chemical industry, it is an important raw material for the synthesis of a variety of high-value-added fine chemicals. After complex processes, it can be converted into various new materials with excellent performance, such as materials with special optical and electrical properties, which are widely used in the manufacture of electronic equipment.
In the field of agriculture, this compound is also useful. It can be developed as a plant growth regulator, which precisely regulates the growth situation of crops according to their growth stage, or promotes seed germination, root development, or enhances crop stress resistance, resists drought, diseases and insect attacks, and then ensures crop yield and quality.
At the level of scientific research and exploration, this compound provides an ideal model for scientists to study chemical reaction mechanisms and biological activity mechanisms. Through in-depth study of it, it may be possible to reveal new scientific laws, expand the boundaries of human cognition of the material world, lay a solid foundation for subsequent scientific research, and guide more innovative research directions.
In industrial production, this compound is also indispensable. In the field of material synthesis, it can be used as a catalyst to accelerate the process of specific chemical reactions, improve production efficiency and product quality. In the fine chemical industry, it is an important raw material for the synthesis of a variety of high-value-added fine chemicals. After complex processes, it can be converted into various new materials with excellent performance, such as materials with special optical and electrical properties, which are widely used in the manufacture of electronic equipment.
In the field of agriculture, this compound is also useful. It can be developed as a plant growth regulator, which precisely regulates the growth situation of crops according to their growth stage, or promotes seed germination, root development, or enhances crop stress resistance, resists drought, diseases and insect attacks, and then ensures crop yield and quality.
At the level of scientific research and exploration, this compound provides an ideal model for scientists to study chemical reaction mechanisms and biological activity mechanisms. Through in-depth study of it, it may be possible to reveal new scientific laws, expand the boundaries of human cognition of the material world, lay a solid foundation for subsequent scientific research, and guide more innovative research directions.
What is the synthesis method of this compound?
The synthesis of a chemical compound is really the key to chemistry. If you want to make this compound today, you can refer to the ancient method, and use the delicacy of the ancient method to find a way to synthesize it.
In the past, there were wise men who studied the properties of various substances, observed their changing rules, and combined them with exquisite methods to form new substances. In order to synthesize this compound today, when you first understand its constituent elements, such as gold, wood, water, fire, and earth, you need to study the proportions of each element in detail.
If this compound contains metal elements, it can be imitated by the ancient metallurgical method. First, the ore containing the metal is calcined with intense fire. As recorded in "Tiangong Kaiwu", the carbon is used as a lead, and the blast supports the combustion to separate the metal in the ore. However, the metal may need to be further purified, and the metal can be purified according to its different properties with impurities, either by washing with water or by distillation.
If there is an organic quality in the compound, the ancients can start with natural things. If you want to obtain organic compounds containing hydrocarbons, you can extract useful ingredients from plants, flowers, leaves, etc., and extract them with solvents such as alcohols and ethers. Then, according to its reaction properties, or catalyzed by acid and base, or by light and heating, the ingredients interact and gradually form the desired compound.
When synthesizing, the choice of utensils is also important. When using strong and clean utensils, such as pottery, porcelain, copper, and iron utensils, choose the appropriate utensils according to the mildness or intensity of the reaction. And the reaction environment, temperature, humidity, gas and other conditions need to be carefully regulated. High temperature will cause the reaction to be fast, and may cause the decomposition of the substance; low temperature will cause the reaction to be slow, or it will be difficult to form the desired substance. If the humidity is too high, or the substance will be deliquescent; if the humidity is low, some reactions will be difficult. As for gas, if the reaction requires oxygen, it should be ventilated; if it is anaerobic, it should be airtight.
Furthermore, the steps of synthesis must be followed in order. What kind of substance meets first, and what is added later, is determined. If it is wrong, the reaction will not meet expectations, or other things will be born. After each step of reaction, it is necessary to carefully investigate the properties of the product to determine the method of the next step. In this way, step by step with caution, following the wonders of material properties and ancient methods, a good method of synthesis of this compound can be obtained.
In the past, there were wise men who studied the properties of various substances, observed their changing rules, and combined them with exquisite methods to form new substances. In order to synthesize this compound today, when you first understand its constituent elements, such as gold, wood, water, fire, and earth, you need to study the proportions of each element in detail.
If this compound contains metal elements, it can be imitated by the ancient metallurgical method. First, the ore containing the metal is calcined with intense fire. As recorded in "Tiangong Kaiwu", the carbon is used as a lead, and the blast supports the combustion to separate the metal in the ore. However, the metal may need to be further purified, and the metal can be purified according to its different properties with impurities, either by washing with water or by distillation.
If there is an organic quality in the compound, the ancients can start with natural things. If you want to obtain organic compounds containing hydrocarbons, you can extract useful ingredients from plants, flowers, leaves, etc., and extract them with solvents such as alcohols and ethers. Then, according to its reaction properties, or catalyzed by acid and base, or by light and heating, the ingredients interact and gradually form the desired compound.
When synthesizing, the choice of utensils is also important. When using strong and clean utensils, such as pottery, porcelain, copper, and iron utensils, choose the appropriate utensils according to the mildness or intensity of the reaction. And the reaction environment, temperature, humidity, gas and other conditions need to be carefully regulated. High temperature will cause the reaction to be fast, and may cause the decomposition of the substance; low temperature will cause the reaction to be slow, or it will be difficult to form the desired substance. If the humidity is too high, or the substance will be deliquescent; if the humidity is low, some reactions will be difficult. As for gas, if the reaction requires oxygen, it should be ventilated; if it is anaerobic, it should be airtight.
Furthermore, the steps of synthesis must be followed in order. What kind of substance meets first, and what is added later, is determined. If it is wrong, the reaction will not meet expectations, or other things will be born. After each step of reaction, it is necessary to carefully investigate the properties of the product to determine the method of the next step. In this way, step by step with caution, following the wonders of material properties and ancient methods, a good method of synthesis of this compound can be obtained.
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