Linshang Chemical
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Benzene, 2,4-Dichloro-1-Iodo-
Linshang Chemical
|
HS Code |
733176 |
| Chemical Formula | C6H3Cl2I |
| Molar Mass | 273.899 g/mol |
| Appearance | Solid (predicted) |
| Boiling Point | Approximately 250 - 270 °C (estimated) |
| Solubility In Water | Insoluble (non - polar due to aromatic ring and non - polar halogen substituents) |
| Solubility In Organic Solvents | Soluble in non - polar organic solvents like benzene, toluene |
| Vapor Pressure | Low vapor pressure at room temperature due to relatively high molar mass |
| Stability | Stable under normal conditions, but may react with strong oxidizing or reducing agents |
As an accredited Benzene, 2,4-Dichloro-1-Iodo- factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500g of 2,4 - dichloro - 1 - iodo - benzene in a sealed, chemical - resistant bottle. |
| Storage | Store "Benzene, 2,4 - dichloro - 1 - iodo -" in a cool, well - ventilated area away from heat, sparks, and open flames. Keep it in a tightly closed container, preferably made of corrosion - resistant materials. Isolate it from oxidizing agents, reducing agents, and other reactive chemicals. Adhere to proper labeling for clear identification and safety. |
| Shipping | "2,4 - Dichloro - 1 - iodo - benzene" is a chemical. Shipping should comply with hazardous material regulations. It must be properly packaged in suitable containers to prevent leakage, and shipped with appropriate safety documentation for safe transport. |
Competitive Benzene, 2,4-Dichloro-1-Iodo- 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 Benzene, 2,4-Dichloro-1-Iodo- in China?
As a trusted Benzene, 2,4-Dichloro-1-Iodo- manufacturer, we deliver:
Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements.
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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 Benzene, 2,4-Dichloro-1-Iodo- 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?
What is the Chinese name of this compound? The following answer is in the classical Chinese format of "Tiangong Kaiwu":
There is a thing today, and the world wants to know its name for its compound quality. This thing is unique to the genus of various compounds. However, its shape, color, quality, and use are not detailed, so it is difficult to determine its name.
If it is about the compound in the world, there are many categories. Or according to its shape, there are beads, blocks, and powders; or according to its color, red-orange, yellow-green, blue-purple, each showing a unique color; or according to its nature, there are strong, soft, and brittle; or according to its use, it can be used as medicine to treat diseases, it can help ignite fires, and it can be used as a device.
However, this compound is not known today, or it exists between gold and stone, or it is born in grass and trees, or it is transformed by water and fire. Its nature may be warm or dry, or cold or hot; its taste may be pungent or sweet, or sour or bitter.
To understand the name of this compound, we should carefully observe its origin, observe the method of its generation, and test its signs of change. Or clues obtained in the art of alchemy, metallurgical skills, and pottery making. It is also necessary to observe the appearance and phase of other things it encounters in heaven and earth.
Wait until all the conditions are clear before you can get its exact name. If only these few words, it is difficult to determine what the name of this compound is.
There is a thing today, and the world wants to know its name for its compound quality. This thing is unique to the genus of various compounds. However, its shape, color, quality, and use are not detailed, so it is difficult to determine its name.
If it is about the compound in the world, there are many categories. Or according to its shape, there are beads, blocks, and powders; or according to its color, red-orange, yellow-green, blue-purple, each showing a unique color; or according to its nature, there are strong, soft, and brittle; or according to its use, it can be used as medicine to treat diseases, it can help ignite fires, and it can be used as a device.
However, this compound is not known today, or it exists between gold and stone, or it is born in grass and trees, or it is transformed by water and fire. Its nature may be warm or dry, or cold or hot; its taste may be pungent or sweet, or sour or bitter.
To understand the name of this compound, we should carefully observe its origin, observe the method of its generation, and test its signs of change. Or clues obtained in the art of alchemy, metallurgical skills, and pottery making. It is also necessary to observe the appearance and phase of other things it encounters in heaven and earth.
Wait until all the conditions are clear before you can get its exact name. If only these few words, it is difficult to determine what the name of this compound is.
What are the physical properties of this compound?
This compound has various physical properties. In terms of its color state, it is often the color of [specific color], or the state of [specific form, such as solid, liquid, etc.]. Under normal temperature and pressure, the texture [describes the texture, such as hard, soft, etc.].
Looking at its density, compared with water, [specific comparison situation, such as greater than water, less than water, etc.], this characteristic makes it appear in water [corresponding state, such as sinking at the bottom of the water, floating on the water surface, etc.]. As for the melting point, it is about [X] degrees Celsius. When the ambient temperature reaches this value, the compound begins to melt from a solid state to a liquid state; and the boiling point is around [Y] degrees Celsius. At this temperature, the compound rapidly converts from a liquid state to a gaseous state.
The solubility of this compound also has characteristics. In water [specific dissolution conditions, such as soluble, slightly soluble, insoluble, etc.], but in organic solvents such as [name of some organic solvents], it shows [different dissolution conditions]. In terms of volatility, under normal environmental conditions, [volatile conditions, such as volatile, not volatile, etc.], if it is volatile, it can smell the smell of [specific odor description] in the air.
In addition, the conductivity of the compound cannot be ignored. When in the solid state, its conductivity [specific conductivity conditions, such as good, poor, etc.]; and when in the molten state or dissolved in a specific solvent to form a solution, the conductivity [changes that occur]. These are all important physical properties of the compound, which are relevant to its application in various fields.
Looking at its density, compared with water, [specific comparison situation, such as greater than water, less than water, etc.], this characteristic makes it appear in water [corresponding state, such as sinking at the bottom of the water, floating on the water surface, etc.]. As for the melting point, it is about [X] degrees Celsius. When the ambient temperature reaches this value, the compound begins to melt from a solid state to a liquid state; and the boiling point is around [Y] degrees Celsius. At this temperature, the compound rapidly converts from a liquid state to a gaseous state.
The solubility of this compound also has characteristics. In water [specific dissolution conditions, such as soluble, slightly soluble, insoluble, etc.], but in organic solvents such as [name of some organic solvents], it shows [different dissolution conditions]. In terms of volatility, under normal environmental conditions, [volatile conditions, such as volatile, not volatile, etc.], if it is volatile, it can smell the smell of [specific odor description] in the air.
In addition, the conductivity of the compound cannot be ignored. When in the solid state, its conductivity [specific conductivity conditions, such as good, poor, etc.]; and when in the molten state or dissolved in a specific solvent to form a solution, the conductivity [changes that occur]. These are all important physical properties of the compound, which are relevant to its application in various fields.
What are the chemical properties of this compound?
This compound is unique in nature and has multiple strange chemical properties.
First, it has remarkable stability. It is like being crafted by the sky, and the structure is dense and stable. In the case of ordinary temperature changes and moisture, it is difficult to move it at all, as if it is hidden within a solid barrier, not easily disturbed by the outside world. Even after a long time of tempering, its essence has rarely changed, like an ancient heavy weapon. Although the years have changed, the style still exists.
Second, the reactivity is quite different. When a specific situation and conditions are suitable, it is like a dormant spiritual object suddenly awakens, showing a strong willingness to react. It can cleverly combine with many substances to generate other novel things. However, the reaction is not wanton, but seems to follow some obscure law, precise and orderly, just like following the rules of God, orderly interpretation of chemical changes.
Third, the solubility is unique. In some common solvents, it may be quietly integrated, like a fish in water, evenly dispersed, as if it is integrated with solvents, indistinguishable from each other; in other solvents, it seems to be rejected thousands of miles away, not touching the slightest bit, as if it is distinct, and the boundaries are clear.
Fourth, the thermal properties are also unique. When heated, or slowly and gradually change, its physical and chemical states are gradually transformed in the rise of temperature, which seems to follow the rhythm of nature and change leisurely; or at a specific temperature node, a sudden drastic change occurs, as if the hidden power suddenly bursts out, presenting a different scene, which is amazing.
All kinds of chemical properties are like codes given by heaven, waiting for the world to uncover its mysteries with wisdom and exploration, and understand the endless mysteries.
First, it has remarkable stability. It is like being crafted by the sky, and the structure is dense and stable. In the case of ordinary temperature changes and moisture, it is difficult to move it at all, as if it is hidden within a solid barrier, not easily disturbed by the outside world. Even after a long time of tempering, its essence has rarely changed, like an ancient heavy weapon. Although the years have changed, the style still exists.
Second, the reactivity is quite different. When a specific situation and conditions are suitable, it is like a dormant spiritual object suddenly awakens, showing a strong willingness to react. It can cleverly combine with many substances to generate other novel things. However, the reaction is not wanton, but seems to follow some obscure law, precise and orderly, just like following the rules of God, orderly interpretation of chemical changes.
Third, the solubility is unique. In some common solvents, it may be quietly integrated, like a fish in water, evenly dispersed, as if it is integrated with solvents, indistinguishable from each other; in other solvents, it seems to be rejected thousands of miles away, not touching the slightest bit, as if it is distinct, and the boundaries are clear.
Fourth, the thermal properties are also unique. When heated, or slowly and gradually change, its physical and chemical states are gradually transformed in the rise of temperature, which seems to follow the rhythm of nature and change leisurely; or at a specific temperature node, a sudden drastic change occurs, as if the hidden power suddenly bursts out, presenting a different scene, which is amazing.
All kinds of chemical properties are like codes given by heaven, waiting for the world to uncover its mysteries with wisdom and exploration, and understand the endless mysteries.
What are the common uses of this compound?
This compound has a wide range of uses, and the common ones are mentioned here.
First, it has a significant effect in the field of medicine. It can be used as a raw material for drugs to treat patients. Some compounds have antibacterial and anti-inflammatory properties, which can treat various inflammatory diseases; they also have the effect of regulating human physiological functions, such as helping the balance of endocrine and the stability of the nervous system. Therefore, in the pharmaceutical industry, it is an indispensable factor, which is related to the health of thousands of patients.
Second, in the chemical industry, it plays an important role. It is often a key intermediate in the synthesis of many chemical products. Through a series of chemical reactions, polymer materials with different properties can be generated, which are used in plastics, fibers and other fields. For example, the plastics produced, or with high strength and wear resistance, can be used to make industrial equipment and building materials; the fibers produced, or with soft and comfortable, moisture-absorbing and breathable properties, can be used for textiles and clothing to improve the quality of life.
Third, in agriculture, it also plays an important role. Some compounds can be made into pesticides, which can be used to control pests and diseases, maintain the growth of crops, and increase yield. At the same time, some compounds can be used as additives for fertilizers, providing essential nutrients for plants, optimizing soil structure, enhancing soil fertility, and contributing to the sustainable development of agriculture.
Fourth, in the field of scientific research, is an important research object. Scientists develop new scientific understanding and promote the progress of chemistry, materials science, biology and other disciplines through in-depth investigation of its properties, structure and reaction mechanism. Its research results may lay the foundation for the research and development of new technologies and new materials, and lead the innovation of science and technology.
In short, this compound has extensive and critical uses in many fields such as medicine, chemical industry, agriculture, scientific research, etc., and has a profound impact on the development and progress of human society.
First, it has a significant effect in the field of medicine. It can be used as a raw material for drugs to treat patients. Some compounds have antibacterial and anti-inflammatory properties, which can treat various inflammatory diseases; they also have the effect of regulating human physiological functions, such as helping the balance of endocrine and the stability of the nervous system. Therefore, in the pharmaceutical industry, it is an indispensable factor, which is related to the health of thousands of patients.
Second, in the chemical industry, it plays an important role. It is often a key intermediate in the synthesis of many chemical products. Through a series of chemical reactions, polymer materials with different properties can be generated, which are used in plastics, fibers and other fields. For example, the plastics produced, or with high strength and wear resistance, can be used to make industrial equipment and building materials; the fibers produced, or with soft and comfortable, moisture-absorbing and breathable properties, can be used for textiles and clothing to improve the quality of life.
Third, in agriculture, it also plays an important role. Some compounds can be made into pesticides, which can be used to control pests and diseases, maintain the growth of crops, and increase yield. At the same time, some compounds can be used as additives for fertilizers, providing essential nutrients for plants, optimizing soil structure, enhancing soil fertility, and contributing to the sustainable development of agriculture.
Fourth, in the field of scientific research, is an important research object. Scientists develop new scientific understanding and promote the progress of chemistry, materials science, biology and other disciplines through in-depth investigation of its properties, structure and reaction mechanism. Its research results may lay the foundation for the research and development of new technologies and new materials, and lead the innovation of science and technology.
In short, this compound has extensive and critical uses in many fields such as medicine, chemical industry, agriculture, scientific research, etc., and has a profound impact on the development and progress of human society.
What are the precautions during the synthesis of this compound?
In the process of chemical synthesis, it is quite important to pay attention to all kinds of things. Let me tell you one by one.
The quality of the first raw materials. Whether the raw materials are pure or clean is related to the success or failure of the chemical synthesis. If the raw materials are miscellaneous or of poor quality, the resulting materials will be difficult to achieve. As "Tiangong Kaiwu" says, "If you want to do something good, you must first sharpen your tools." In the matter of chemical synthesis, the raw materials are like the foundation of the device, the foundation is unstable, and the building is difficult to build. Therefore, when selecting raw materials, you should strive for purity and refinement, without flaws.
The second time is to observe the conditions of the reaction. Temperature, pressure, and catalyst are all important. If the temperature is too high or too low, the reaction can be biased beyond expectations. The same is true for the pressure, and the appropriate pressure can promote the smooth reaction. Catalysts can change the rate of synthesis, but the dosage must also be accurate. Less is ineffective, and more may cause others to change. If coal is used to make gas, improper temperature control will affect the output and quality of gas; when ironmaking, the pressure and catalyst are used properly, and the quality of iron will also be damaged.
Furthermore, the method of operation is also crucial. The speed of stirring and the order of feeding are all fixed. Stirring too fast or too slow will cause uneven mixing of materials and difficulty in uniform reaction. The order of feeding is wrong, or the reaction will be disordered. If a certain medicine is made, the feeding sequence is improper, and the curative effect of the medicine may be greatly reduced.
And the process of synthesis should be closely monitored. Use an instrument to measure the reaction status, observe its color, smell its taste, and measure its quality. If there is a slight abnormality, it must be disposed of in time. If porcelain is fired, observe the color change in the kiln, and know whether the heat is suitable. If there is any deviation, adjust the heat quickly, and then you can get the best porcelain.
The matter of synthesis, raw materials, conditions, operation, and monitoring, all must be paid attention to. If there is a mistake in one link, everything will be lost. Only with caution can the compound achieve the expected quality and quantity.
The quality of the first raw materials. Whether the raw materials are pure or clean is related to the success or failure of the chemical synthesis. If the raw materials are miscellaneous or of poor quality, the resulting materials will be difficult to achieve. As "Tiangong Kaiwu" says, "If you want to do something good, you must first sharpen your tools." In the matter of chemical synthesis, the raw materials are like the foundation of the device, the foundation is unstable, and the building is difficult to build. Therefore, when selecting raw materials, you should strive for purity and refinement, without flaws.
The second time is to observe the conditions of the reaction. Temperature, pressure, and catalyst are all important. If the temperature is too high or too low, the reaction can be biased beyond expectations. The same is true for the pressure, and the appropriate pressure can promote the smooth reaction. Catalysts can change the rate of synthesis, but the dosage must also be accurate. Less is ineffective, and more may cause others to change. If coal is used to make gas, improper temperature control will affect the output and quality of gas; when ironmaking, the pressure and catalyst are used properly, and the quality of iron will also be damaged.
Furthermore, the method of operation is also crucial. The speed of stirring and the order of feeding are all fixed. Stirring too fast or too slow will cause uneven mixing of materials and difficulty in uniform reaction. The order of feeding is wrong, or the reaction will be disordered. If a certain medicine is made, the feeding sequence is improper, and the curative effect of the medicine may be greatly reduced.
And the process of synthesis should be closely monitored. Use an instrument to measure the reaction status, observe its color, smell its taste, and measure its quality. If there is a slight abnormality, it must be disposed of in time. If porcelain is fired, observe the color change in the kiln, and know whether the heat is suitable. If there is any deviation, adjust the heat quickly, and then you can get the best porcelain.
The matter of synthesis, raw materials, conditions, operation, and monitoring, all must be paid attention to. If there is a mistake in one link, everything will be lost. Only with caution can the compound achieve the expected quality and quantity.
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