Linshang Chemical
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Benzene, 1,3-Dichloro-5-Iodo-
Linshang Chemical
|
HS Code |
165073 |
| Chemical Formula | C6H3Cl2I |
| Molar Mass | 274.899 g/mol |
| Appearance | Solid (predicted) |
| Melting Point | N/A (no common data found, but likely high due to molecular structure) |
| Solubility In Water | Insoluble (non - polar molecule due to symmetric benzene ring and non - polar halogen groups) |
| Solubility In Organic Solvents | Soluble in non - polar organic solvents like benzene, toluene (due to non - polar nature) |
| Vapor Pressure | Low (heavy molecule with strong intermolecular forces) |
| Stability | Stable under normal conditions, but can react with strong oxidizing or reducing agents |
As an accredited Benzene, 1,3-Dichloro-5-Iodo- factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100g of 1,3 - dichloro - 5 - iodo - benzene in a sealed chemical - grade container. |
| Storage | Store "Benzene, 1,3 - dichloro - 5 - iodo -" in a cool, well - ventilated area away from heat, sparks, and open flames. Keep it in a tightly - sealed container made of materials resistant to its corrosive nature. Store it separately from oxidizing agents and incompatible substances to prevent dangerous reactions. Ensure proper labeling for easy identification. |
| Shipping | 1,3 - Dichloro - 5 - iodobenzene is a chemical. Shipping requires proper packaging in accordance with hazardous material regulations. It should be safeguarded against breakage, with clear labels indicating its nature for safe transportation. |
Competitive Benzene, 1,3-Dichloro-5-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
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As a trusted Benzene, 1,3-Dichloro-5-Iodo- manufacturer, we deliver:
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What is the Chinese name of this compound?
The name of this compound depends on its specific chemical structure and characteristics. Because the details of this compound are not known, it is difficult to say its exact Chinese name directly.
However, if you want to know the Chinese name of a compound, the following methods are often followed. First, according to the chemical naming rules. If it is an organic compound, it is named according to the system nomenclature according to its carbon chain structure and functional group. Such as alkanes, according to the number of carbon atoms called methane, ethane, propane, etc.; olefins containing double bonds, add the word "ene" before the corresponding alkane name, and indicate the double bond position; those containing hydroxyl groups (-OH) as functional groups belong to alcohols, such as ethanol.
Second, if this compound has a common name or common name, it is also often recognized by the academic community. For example, acetic acid, its system name is acetic acid, which is commonly used in daily and chemical fields.
Third, refer to the existing literature. Many familiar compounds have been given their Chinese names by predecessors. Check professional chemical dictionaries, literature, etc., to get common names.
In the words of "Tiangong Kaiwu", although the chemical system at that time was not as complete as it is today, it also had unique names for substances. Ancient craftsmen and scholars named substances according to their appearance, source, and purpose. For example, "carboniferous", that is, today's coal, was named because it resembled stone and was flammable; "mercury" was called because it was like water and was silvery white.
To determine the Chinese name of this compound today, it can be compared to the ancient method. First, the structural properties are studied in detail, and then the appropriate name is determined according to chemical rules, common name habits and literature.
However, if you want to know the Chinese name of a compound, the following methods are often followed. First, according to the chemical naming rules. If it is an organic compound, it is named according to the system nomenclature according to its carbon chain structure and functional group. Such as alkanes, according to the number of carbon atoms called methane, ethane, propane, etc.; olefins containing double bonds, add the word "ene" before the corresponding alkane name, and indicate the double bond position; those containing hydroxyl groups (-OH) as functional groups belong to alcohols, such as ethanol.
Second, if this compound has a common name or common name, it is also often recognized by the academic community. For example, acetic acid, its system name is acetic acid, which is commonly used in daily and chemical fields.
Third, refer to the existing literature. Many familiar compounds have been given their Chinese names by predecessors. Check professional chemical dictionaries, literature, etc., to get common names.
In the words of "Tiangong Kaiwu", although the chemical system at that time was not as complete as it is today, it also had unique names for substances. Ancient craftsmen and scholars named substances according to their appearance, source, and purpose. For example, "carboniferous", that is, today's coal, was named because it resembled stone and was flammable; "mercury" was called because it was like water and was silvery white.
To determine the Chinese name of this compound today, it can be compared to the ancient method. First, the structural properties are studied in detail, and then the appropriate name is determined according to chemical rules, common name habits and literature.
What are its physical properties?
A certain stone has a strong and dense quality. Its strength is also strong, and it can resist the invasion of external forces. Although it is hit by a heavy weapon, it is difficult to damage its shape. This is why it bears the weight of a tall building and does not fall, and it cannot be destroyed through the wind and rain. Its density is also delicate in texture, with few gaps, and water vapor cannot seep, so it can be settled in a dry and wet environment.
It is cool and moist. In summer, when you touch it, it feels cool and refreshing to the skin. If you are by the bank of a clear spring, the heat will suddenly disappear; and it is moist like condensation, it is smooth but not greasy, and it seems that a warm and moist gas is transmitted from the stone, giving people a feeling of softness.
Furthermore, its color is rich and elegant. Or like ink dye, deep and distant, with the beauty of tranquility; or like jade white, pure and flawless, with a noble rhyme; there are also blue and gray colors, simple and elegant, and the view is like seeing the precipitation of time, full of the heaviness and vicissitudes of history.
As for its voice, the more clear it is, the longer it is. Tap at the quiet place, and its sound curls, like a ring of ringing and wearing, in the empty valley, it adds an ethereal realm, as if it can connect with the spiritual energy of heaven and earth, which attracts reverie. These numbers are all manifestations of its physical properties.
It is cool and moist. In summer, when you touch it, it feels cool and refreshing to the skin. If you are by the bank of a clear spring, the heat will suddenly disappear; and it is moist like condensation, it is smooth but not greasy, and it seems that a warm and moist gas is transmitted from the stone, giving people a feeling of softness.
Furthermore, its color is rich and elegant. Or like ink dye, deep and distant, with the beauty of tranquility; or like jade white, pure and flawless, with a noble rhyme; there are also blue and gray colors, simple and elegant, and the view is like seeing the precipitation of time, full of the heaviness and vicissitudes of history.
As for its voice, the more clear it is, the longer it is. Tap at the quiet place, and its sound curls, like a ring of ringing and wearing, in the empty valley, it adds an ethereal realm, as if it can connect with the spiritual energy of heaven and earth, which attracts reverie. These numbers are all manifestations of its physical properties.
What are its chemical properties?
The chemical properties of a substance are related to the properties it exhibits in chemical reactions. These properties determine the way the substance interacts with other substances, and the products formed after the reaction. The following details the number of chemical properties:
First, flammability. If a substance is flammable, it can undergo a violent oxidation reaction with oxygen under suitable conditions, releasing a large amount of heat and light. Such as common wood, coal, gasoline, etc., are flammable. During combustion, these substances combine with oxygen and are converted into products such as carbon dioxide, water, and other oxides. This property is widely used in life and industry, such as using coal as fuel for heating, power generation, and gasoline-powered vehicles.
Its oxidation and reduction properties. Oxidative substances are easy to obtain electrons in chemical reactions and oxidize other substances. Such as oxygen, potassium permanganate, etc., are common strong oxidants. In contrast, reducing substances are prone to lose electrons and reduce other substances. Like hydrogen, carbon monoxide, etc., are often used as reducing agents. Take hydrogen to reduce copper oxide as an example. Hydrogen reduces copper in copper oxide to elemental copper, and itself is oxidized to water. This process reflects the reductive properties of hydrogen and the oxidative properties of copper oxide.
Third, acidity and alkalinity. The acidity and alkalinity of substances are also important chemical properties. Acids can ionize hydrogen ions in aqueous solutions, and have many properties. For example, they can turn purple litmus test solution red and neutralize with alkali to form salts and water. Common acids include hydrochloric acid, sulfuric acid, nitric acid, etc. Alkali can ionize hydroxide ions in aqueous solutions, which can turn purple litmus test solution blue and neutralize with acids. Sodium hydroxide, calcium hydroxide, etc. are common bases. The reaction between acid and base is widely used in industrial production, scientific research experiments and daily life, such as the use of acid-base neutralization principle to treat wastewater, make soap, etc.
Fourth, stability. Some substances are chemically stable and do not react easily with others under normal conditions. Such as rare gases, because of their stable atomic structure and extremely inactive chemical properties, they are often used as protective gases. Some substances are less stable, such as some peroxides, which are prone to decomposition reactions when exposed to heat, light or contact with specific substances. The chemical properties of
substances are diverse and complex, which not only affect their existence in the natural world, but also provide an important basis for human use of substances for production, scientific research and other activities.
First, flammability. If a substance is flammable, it can undergo a violent oxidation reaction with oxygen under suitable conditions, releasing a large amount of heat and light. Such as common wood, coal, gasoline, etc., are flammable. During combustion, these substances combine with oxygen and are converted into products such as carbon dioxide, water, and other oxides. This property is widely used in life and industry, such as using coal as fuel for heating, power generation, and gasoline-powered vehicles.
Its oxidation and reduction properties. Oxidative substances are easy to obtain electrons in chemical reactions and oxidize other substances. Such as oxygen, potassium permanganate, etc., are common strong oxidants. In contrast, reducing substances are prone to lose electrons and reduce other substances. Like hydrogen, carbon monoxide, etc., are often used as reducing agents. Take hydrogen to reduce copper oxide as an example. Hydrogen reduces copper in copper oxide to elemental copper, and itself is oxidized to water. This process reflects the reductive properties of hydrogen and the oxidative properties of copper oxide.
Third, acidity and alkalinity. The acidity and alkalinity of substances are also important chemical properties. Acids can ionize hydrogen ions in aqueous solutions, and have many properties. For example, they can turn purple litmus test solution red and neutralize with alkali to form salts and water. Common acids include hydrochloric acid, sulfuric acid, nitric acid, etc. Alkali can ionize hydroxide ions in aqueous solutions, which can turn purple litmus test solution blue and neutralize with acids. Sodium hydroxide, calcium hydroxide, etc. are common bases. The reaction between acid and base is widely used in industrial production, scientific research experiments and daily life, such as the use of acid-base neutralization principle to treat wastewater, make soap, etc.
Fourth, stability. Some substances are chemically stable and do not react easily with others under normal conditions. Such as rare gases, because of their stable atomic structure and extremely inactive chemical properties, they are often used as protective gases. Some substances are less stable, such as some peroxides, which are prone to decomposition reactions when exposed to heat, light or contact with specific substances. The chemical properties of
substances are diverse and complex, which not only affect their existence in the natural world, but also provide an important basis for human use of substances for production, scientific research and other activities.
What is its main purpose?
"Tiangong Kaiwu" is a scientific and technological masterpiece written by Song Yingxing in the Ming Dynasty, and its main uses are very wide.
The first is to record the process technology. The book details the technical details of many production fields in detail, such as farming, sowing, irrigation, fertilization, textile silk reeling, weaving, dyeing, ceramic billet making, glazing, firing, etc. The steps of each process and the tools and equipment used are meticulously depicted, providing valuable information for the craftsmen to inherit their skills and future generations to understand the ancient crafts. For example, the method of making bamboo paper is remembered, from cutting bamboo bleaching ponds, boiling the fire, to pounding the mortar, throwing the material into the curtain, covering the curtain and pressing the paper, and drying through the fire. All the processes are clearly presented, so that future generations can understand the exquisite skills of ancient papermaking.
The second is to promote the development of production. The technology described has been tested by practice and is reasonable and advanced. Practitioners in various places can improve production according to their methods. For example, the method of smelting and casting, the elaboration of different metal smelting and casting processes, can help craftsmen improve product quality and production efficiency, which played a positive role in promoting the development of handicraft and agricultural production at that time.
The second is to disseminate scientific knowledge. It covers knowledge in many fields such as agriculture, handicraft, astronomy, geography, and physics. For example, the understanding of the physical properties and chemical changes of metals, the observation and interpretation of natural phenomena, breaking the limitations of scientific knowledge at that time, broadening people's cognitive horizons, and building bridges for the communication and exchange of science and technology.
It is of great significance to repeat cultural inheritance. The preservation of many lost crafts and technologies in the form of text allows future generations to perceive the wisdom and creativity of ancient ancestors, providing rich materials for the study of ancient science and technology history and cultural history. It is an important part of traditional Chinese culture and plays a significant role in inheriting national culture and enhancing national pride.
The first is to record the process technology. The book details the technical details of many production fields in detail, such as farming, sowing, irrigation, fertilization, textile silk reeling, weaving, dyeing, ceramic billet making, glazing, firing, etc. The steps of each process and the tools and equipment used are meticulously depicted, providing valuable information for the craftsmen to inherit their skills and future generations to understand the ancient crafts. For example, the method of making bamboo paper is remembered, from cutting bamboo bleaching ponds, boiling the fire, to pounding the mortar, throwing the material into the curtain, covering the curtain and pressing the paper, and drying through the fire. All the processes are clearly presented, so that future generations can understand the exquisite skills of ancient papermaking.
The second is to promote the development of production. The technology described has been tested by practice and is reasonable and advanced. Practitioners in various places can improve production according to their methods. For example, the method of smelting and casting, the elaboration of different metal smelting and casting processes, can help craftsmen improve product quality and production efficiency, which played a positive role in promoting the development of handicraft and agricultural production at that time.
The second is to disseminate scientific knowledge. It covers knowledge in many fields such as agriculture, handicraft, astronomy, geography, and physics. For example, the understanding of the physical properties and chemical changes of metals, the observation and interpretation of natural phenomena, breaking the limitations of scientific knowledge at that time, broadening people's cognitive horizons, and building bridges for the communication and exchange of science and technology.
It is of great significance to repeat cultural inheritance. The preservation of many lost crafts and technologies in the form of text allows future generations to perceive the wisdom and creativity of ancient ancestors, providing rich materials for the study of ancient science and technology history and cultural history. It is an important part of traditional Chinese culture and plays a significant role in inheriting national culture and enhancing national pride.
What are its synthesis methods?
There are many kinds of ways to synthesize something, and it cannot be hidden in one word. Looking at "Tiangong Kaiwu", it is described in detail in all kinds of skills, which can be used as a source of knowledge for our generation.
In the synthesis of hardware, the book contains the method of casting mirrors, which is mainly copper, and also tin and lead. First melt the copper, and then add tin and lead, and mix evenly according to the appropriate proportion. The control of its heat is crucial. If the fire is too fierce, the metal will be vulnerable; if the fire is insufficient, the fusion will not be good. This is measured, and it needs to be learned by craftsmen for a long time.
As for the synthesis of ceramics, soil mining is the beginning. Select good soil, wash it to remove impurities, and make a blank body. After the body is formed, it is fired in the kiln. Kiln temperature and atmosphere are all key. Different kiln temperatures can make ceramics take on different colors and qualities. If you want to get celadon, you need to fire it in a reducing atmosphere, and the temperature also has a specific range.
Let's talk about the synthesis of paper again. Take green sandalwood skin, straw, etc. as materials, and separate the fibers through soaking, steaming, and pounding. Then make paper, spread the fibers evenly on the bamboo curtain, and drain them into paper pages. In this process, whether the fiber is treated finely or not depends on the quality of the paper.
There is also a wonderful way to synthesize dyeing and weaving. When dyeing, choose natural dyes, such as indigo, madder, etc. Immerse the fabric in the dye liquid, control the time and temperature, so that the color is evenly adhered. The method of brocade, interweaving warp and weft, and the design of the pattern is exquisite, requires the weaver's ingenuity to weave exquisite brocade.
In general, the method of synthesis depends on the choice of materials, the refinement of the process, and the familiarity of the skills. The ancients have accumulated rich experience in various synthetic techniques. As recorded in "Tiangong Kaiwu", it is the crystallization of wisdom, which can be used for reference by future generations, so that our generation can avoid detours and continuously improve the skills on the road of synthesis.
In the synthesis of hardware, the book contains the method of casting mirrors, which is mainly copper, and also tin and lead. First melt the copper, and then add tin and lead, and mix evenly according to the appropriate proportion. The control of its heat is crucial. If the fire is too fierce, the metal will be vulnerable; if the fire is insufficient, the fusion will not be good. This is measured, and it needs to be learned by craftsmen for a long time.
As for the synthesis of ceramics, soil mining is the beginning. Select good soil, wash it to remove impurities, and make a blank body. After the body is formed, it is fired in the kiln. Kiln temperature and atmosphere are all key. Different kiln temperatures can make ceramics take on different colors and qualities. If you want to get celadon, you need to fire it in a reducing atmosphere, and the temperature also has a specific range.
Let's talk about the synthesis of paper again. Take green sandalwood skin, straw, etc. as materials, and separate the fibers through soaking, steaming, and pounding. Then make paper, spread the fibers evenly on the bamboo curtain, and drain them into paper pages. In this process, whether the fiber is treated finely or not depends on the quality of the paper.
There is also a wonderful way to synthesize dyeing and weaving. When dyeing, choose natural dyes, such as indigo, madder, etc. Immerse the fabric in the dye liquid, control the time and temperature, so that the color is evenly adhered. The method of brocade, interweaving warp and weft, and the design of the pattern is exquisite, requires the weaver's ingenuity to weave exquisite brocade.
In general, the method of synthesis depends on the choice of materials, the refinement of the process, and the familiarity of the skills. The ancients have accumulated rich experience in various synthetic techniques. As recorded in "Tiangong Kaiwu", it is the crystallization of wisdom, which can be used for reference by future generations, so that our generation can avoid detours and continuously improve the skills on the road of synthesis.
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