Linshang Chemical
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Benzenemethanamine, 2,4-Dichloro-Α-Methyl-, (Αs)-
Linshang Chemical
|
HS Code |
437561 |
| Chemical Formula | C8H9Cl2N |
| Molar Mass | 190.07 g/mol |
| Appearance | Solid (likely, based on similar compounds) |
| Physical State | Solid at standard conditions |
| Solubility | Solubility in organic solvents (e.g., ethanol, dichloromethane), poor solubility in water |
| Odor | Likely has a characteristic organic amine - like odor |
As an accredited Benzenemethanamine, 2,4-Dichloro-Α-Methyl-, (Αs)- factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100 g of (αs)-2,4 - dichloro - α - methylbenzenemethanamine in sealed chemical - grade packaging. |
| Storage | Store “Benzenemethanamine, 2,4 - dichloro - α - methyl -, (αs) -” in a cool, dry, well - ventilated area, away from heat sources and open flames. Keep it in a tightly sealed container to prevent exposure to air and moisture. Store separately from oxidizing agents, acids, and other incompatible substances to avoid potential reactions. |
| Shipping | Shipping of 2,4 - dichloro - α - methylbenzenemethanamine ((αs)-) must follow strict chemical transport regulations. It should be properly packaged in corrosion - resistant containers, labeled clearly, and shipped with safety data sheets to ensure safe transit. |
Competitive Benzenemethanamine, 2,4-Dichloro-Α-Methyl-, (Αs)- 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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What is the chemical structure of this compound?
The chemical structure of this compound is also related to the fundamental composition of matter, like the cornerstone of a building, which is crucial in the field of chemistry.
If you want to understand its chemical structure, you must use scientific methods to explore the arrangement and bonding of its atoms. Atoms, the micro-particles of matter, gather together in a specific way to form the framework of this compound. Bonding, the attractive force between atoms, there are covalent bonds, ionic bonds, etc. Covalent bonds, atoms are connected by pairs of common electrons, just like walking together; ionic bonds, atoms gain and lose electrons, attract each other with electric charges, such as yin and yang.
Looking at this compound, when considering the genus of its elements. The atoms of different elements have their own characteristics and have their own positions in the structure. Elements such as hydrogen, oxygen, and carbon are often important angles of organic compounds. Carbon can form four bonds and can be extended into rings, making the structure complex and changeable.
And the conformation of its space should be observed. Molecules are not only two-dimensional diagrams, but have three-dimensional shapes. Single bonds can be rotated, resulting in diverse molecular morphologies, including cis-trans isomers and enantiomers. This isomerism, although the atomic connections are the same, but the spatial arrangement is different, which has a significant impact on physical and chemical properties.
Let's talk about its functional groups. Functional groups are atomic groups with specific properties in molecules, such as hydroxyl groups, carboxyl groups, carbonyl groups, etc. The main properties of functional compounds are also the activity check points of reactions.
To know the chemical structure of this compound in detail, experimental methods are indispensable. Spectroscopic analysis, such as infrared spectroscopy, can show the vibrational frequency of chemical bonds, indicating the existence of functional groups; nuclear magnetic resonance can reveal the environment of atomic nuclei and determine the order of atomic connections.
In short, to understand the chemical structure of this compound, it is necessary to integrate elements, bonds, spatial conformations, and functional groups, and to use experimental evidence to gain insight into its delicate structure, paving the way for chemical research and material use.
If you want to understand its chemical structure, you must use scientific methods to explore the arrangement and bonding of its atoms. Atoms, the micro-particles of matter, gather together in a specific way to form the framework of this compound. Bonding, the attractive force between atoms, there are covalent bonds, ionic bonds, etc. Covalent bonds, atoms are connected by pairs of common electrons, just like walking together; ionic bonds, atoms gain and lose electrons, attract each other with electric charges, such as yin and yang.
Looking at this compound, when considering the genus of its elements. The atoms of different elements have their own characteristics and have their own positions in the structure. Elements such as hydrogen, oxygen, and carbon are often important angles of organic compounds. Carbon can form four bonds and can be extended into rings, making the structure complex and changeable.
And the conformation of its space should be observed. Molecules are not only two-dimensional diagrams, but have three-dimensional shapes. Single bonds can be rotated, resulting in diverse molecular morphologies, including cis-trans isomers and enantiomers. This isomerism, although the atomic connections are the same, but the spatial arrangement is different, which has a significant impact on physical and chemical properties.
Let's talk about its functional groups. Functional groups are atomic groups with specific properties in molecules, such as hydroxyl groups, carboxyl groups, carbonyl groups, etc. The main properties of functional compounds are also the activity check points of reactions.
To know the chemical structure of this compound in detail, experimental methods are indispensable. Spectroscopic analysis, such as infrared spectroscopy, can show the vibrational frequency of chemical bonds, indicating the existence of functional groups; nuclear magnetic resonance can reveal the environment of atomic nuclei and determine the order of atomic connections.
In short, to understand the chemical structure of this compound, it is necessary to integrate elements, bonds, spatial conformations, and functional groups, and to use experimental evidence to gain insight into its delicate structure, paving the way for chemical research and material use.
What are its physical properties?
A treasure has a number of physical characteristics. First of all, the quality is firm and the nature is rigid. If this tool is hit by other objects, it cannot be easily damaged. The cover is dense in texture and has strong cohesion. It is like a natural barrier and can withstand all kinds of external attacks.
Second, the nature of heat transfer is specific. When heated, the temperature rises slowly, and it is transmitted to other places later. If it is burned with fire, its surface will gradually heat up, but it will be inside for a long time, and the heat will be evenly dispersed, so that cracks will not form suddenly cold and heat, just like a warm person, slow but not impatient.
Furthermore, the state of light reflection is also special. Its surface is smooth and clean, although it is not as bright as a mirror, when it encounters light, it is softly reflected, not dazzling light, but like moonlight pouring out, gentle and pleasing to the eye. Looking at it, the heart is tranquil, and it will not be disturbed by strong light.
And there is, its weight is moderate. Holding it in the hand is neither light nor nothing, making people feel that its quality is vain; nor is it too heavy to be controlled. This moderate weight is just like the trade-off of dealing with the world. It is balanced and convenient to use.
And its rhyme is unique. With a tap of the finger, the sound is crisp and long, curling endlessly, like the sound of an empty valley, and the aftertaste is winding around the beam. This sound and rhyme are unusual artifacts that can be accessed, and it is unique and quiet. Hearing it is like listening to immortal music, and you are relaxed and happy.
Looking at this treasure, all the physical characteristics are combined to make it unique, and the extraordinary things can be compared to one another. It is a rare treasure in the world.
Second, the nature of heat transfer is specific. When heated, the temperature rises slowly, and it is transmitted to other places later. If it is burned with fire, its surface will gradually heat up, but it will be inside for a long time, and the heat will be evenly dispersed, so that cracks will not form suddenly cold and heat, just like a warm person, slow but not impatient.
Furthermore, the state of light reflection is also special. Its surface is smooth and clean, although it is not as bright as a mirror, when it encounters light, it is softly reflected, not dazzling light, but like moonlight pouring out, gentle and pleasing to the eye. Looking at it, the heart is tranquil, and it will not be disturbed by strong light.
And there is, its weight is moderate. Holding it in the hand is neither light nor nothing, making people feel that its quality is vain; nor is it too heavy to be controlled. This moderate weight is just like the trade-off of dealing with the world. It is balanced and convenient to use.
And its rhyme is unique. With a tap of the finger, the sound is crisp and long, curling endlessly, like the sound of an empty valley, and the aftertaste is winding around the beam. This sound and rhyme are unusual artifacts that can be accessed, and it is unique and quiet. Hearing it is like listening to immortal music, and you are relaxed and happy.
Looking at this treasure, all the physical characteristics are combined to make it unique, and the extraordinary things can be compared to one another. It is a rare treasure in the world.
What are the characteristics of its chemical properties?
The properties of a chemical substance are as follows:
It has many properties and has various strange signs. First, in terms of physical properties, it often shows a specific color state. Either it is a crystal clear body, just like the purity of ice and snow; or it is a dignified and deep color, like the abyss of night. Its texture is smooth and delicate, like a brocade to the touch; or it is hard like iron and stone, which is difficult to break easily.
In terms of chemical activity, this substance exhibits unique properties. When encountering a certain type of reagent, it can respond rapidly, just like dry wood meets fire, instantly explodes, releasing huge energy, dazzling light, and heat waves attack people; while for other substances, it is like a humble gentleman, warm and moist, without the slightest act, the two coexist safely and do not cause waves.
Furthermore, its stability is also unique. Under normal temperature and pressure, it can maintain its own state for a long time, and it is not easy to change, just like a calm old man, who does not change its quality after years; however, if the environment changes suddenly, the temperature rises to an extremely high level, or the pressure increases sharply to an extraordinary level, it will change its nature, transform into a new thing, and show a completely different appearance, just like a phoenix nirvana, reborn.
In addition, its solubility also has characteristics. In some solvents, it can quickly dissipate and merge into one, like raindrops flowing into a river, without seeing its shape, but you can feel its existence; while in other solvents, like oil droplets entering water, it is distinct and refuses to blend. The characteristics of this chemical substance are complex and diverse, which is the wonder of natural creation. It contains endless mysteries, waiting for the world to continue to explore to understand its true meaning.
It has many properties and has various strange signs. First, in terms of physical properties, it often shows a specific color state. Either it is a crystal clear body, just like the purity of ice and snow; or it is a dignified and deep color, like the abyss of night. Its texture is smooth and delicate, like a brocade to the touch; or it is hard like iron and stone, which is difficult to break easily.
In terms of chemical activity, this substance exhibits unique properties. When encountering a certain type of reagent, it can respond rapidly, just like dry wood meets fire, instantly explodes, releasing huge energy, dazzling light, and heat waves attack people; while for other substances, it is like a humble gentleman, warm and moist, without the slightest act, the two coexist safely and do not cause waves.
Furthermore, its stability is also unique. Under normal temperature and pressure, it can maintain its own state for a long time, and it is not easy to change, just like a calm old man, who does not change its quality after years; however, if the environment changes suddenly, the temperature rises to an extremely high level, or the pressure increases sharply to an extraordinary level, it will change its nature, transform into a new thing, and show a completely different appearance, just like a phoenix nirvana, reborn.
In addition, its solubility also has characteristics. In some solvents, it can quickly dissipate and merge into one, like raindrops flowing into a river, without seeing its shape, but you can feel its existence; while in other solvents, like oil droplets entering water, it is distinct and refuses to blend. The characteristics of this chemical substance are complex and diverse, which is the wonder of natural creation. It contains endless mysteries, waiting for the world to continue to explore to understand its true meaning.
In what fields is it applied?
"Tiangong Kaiwu" is an important ancient scientific and technological book in our country, and the application fields are quite extensive.
In the field of agriculture, the book contains many methods of planting and cultivating crops in detail. Grain cultivation such as rice and wheat, from seed selection and sowing timing, to field management, irrigation and drainage, are carefully explained, which helps a lot to improve crop yield and quality, and provides important guidance for ancient agricultural production.
In the handicraft industry, the art of ceramic production is discussed in detail. From the selection of clay, billet forming, to the control of kiln heat, it is recorded, so that ceramic craftsmen can improve their skills and produce high-quality ceramic products, which has a far-reaching impact on the development of the ceramic industry in our country. Another example is metal smelting, which explains metal smelting processes such as gold, silver, copper, and iron, including ore mining, smelting processes, and the use of appliances. It promotes the progress of ancient metal smelting technology and provides a material basis for weapon manufacturing and production tool building.
The textile industry is also involved in its scope. From sericulture, silk reeling, to cotton and linen textiles, the process steps of each link are presented, enabling textile practitioners to learn from and optimize production processes, promote the development of the textile industry, and provide rich and diverse fabrics for the public.
In addition, in the fields of papermaking, salt making, and other fields, "Tiangong Kaiwu" is also recorded. In papermaking, the paper raw material processing, pulp and papermaking processes are described in detail to promote the dissemination and improvement of papermaking technology. Salt production records sea salt, well salt and other production methods, providing technical support for salt industry production and meeting the needs of people's lives for salt.
In short, "Tiangong Kaiwu" involves a wide range of application fields, which has a significant impact on the development of various industries in ancient times, and provides precious materials for later generations to study ancient technology and production.
In the field of agriculture, the book contains many methods of planting and cultivating crops in detail. Grain cultivation such as rice and wheat, from seed selection and sowing timing, to field management, irrigation and drainage, are carefully explained, which helps a lot to improve crop yield and quality, and provides important guidance for ancient agricultural production.
In the handicraft industry, the art of ceramic production is discussed in detail. From the selection of clay, billet forming, to the control of kiln heat, it is recorded, so that ceramic craftsmen can improve their skills and produce high-quality ceramic products, which has a far-reaching impact on the development of the ceramic industry in our country. Another example is metal smelting, which explains metal smelting processes such as gold, silver, copper, and iron, including ore mining, smelting processes, and the use of appliances. It promotes the progress of ancient metal smelting technology and provides a material basis for weapon manufacturing and production tool building.
The textile industry is also involved in its scope. From sericulture, silk reeling, to cotton and linen textiles, the process steps of each link are presented, enabling textile practitioners to learn from and optimize production processes, promote the development of the textile industry, and provide rich and diverse fabrics for the public.
In addition, in the fields of papermaking, salt making, and other fields, "Tiangong Kaiwu" is also recorded. In papermaking, the paper raw material processing, pulp and papermaking processes are described in detail to promote the dissemination and improvement of papermaking technology. Salt production records sea salt, well salt and other production methods, providing technical support for salt industry production and meeting the needs of people's lives for salt.
In short, "Tiangong Kaiwu" involves a wide range of application fields, which has a significant impact on the development of various industries in ancient times, and provides precious materials for later generations to study ancient technology and production.
What are the methods for synthesizing this compound?
There are many ways to synthesize this compound, each with its own advantages and disadvantages, and the choice of method depends on the actual situation.
One is the method of direct synthesis. The relevant raw materials are directly reacted under specific conditions, which is simple and simple, but may require severe reaction conditions, such as high temperature, high pressure or specific catalysts. For example, to synthesize a metal oxide, the metal and oxygen can be reacted at high temperature to promote the direct combination of the two. However, factors such as temperature and oxygen flow rate will affect the purity and yield of the product.
The second is the chemical reaction method in solution. The raw material is dissolved in a suitable solvent, and the reaction is initiated by controlling the pH, temperature, and concentration of the reactants in the solution. This method is conducive to precise regulation of the reaction process, and most reactions can be carried out under relatively mild conditions. Taking the preparation of certain salt compounds as an example, a solution containing corresponding metal ions and acid ions can be mixed and the target product can be obtained by metathesis reaction. During operation, attention should be paid to the concentration ratio of the solution to prevent the formation of impurities. At the same time, subsequent operations such as filtration and crystallization may be required after the reaction to purify the product.
The third is the multi-step reaction method in organic synthesis. If the compound structure is complex, it often needs to be achieved through multi-step organic reactions. Each step of the reaction requires strict control of conditions to ensure the selectivity and yield of the reaction. Such as the synthesis of complex organic drug molecules, or the introduction and transformation of functional groups first, and then the structure of the target molecule is constructed through reactions such as cyclization and condensation. This process requires in-depth understanding of the organic reaction mechanism, and product separation and purification are required after each step of the reaction to ensure the smooth progress of the next reaction.
The fourth is biosynthesis. Compounds are synthesized by enzymes or microorganisms in living organisms. Biosynthesis has the advantages of mild reaction conditions and high selectivity. For example, the use of microbial fermentation to produce certain antibiotics, enzymes in microorganisms can catalyze specific biochemical reactions to synthesize target products. However, biosynthesis is limited by biological growth conditions, such as temperature, pH value, nutrients, etc., and the separation and purification of products is relatively complicated.
One is the method of direct synthesis. The relevant raw materials are directly reacted under specific conditions, which is simple and simple, but may require severe reaction conditions, such as high temperature, high pressure or specific catalysts. For example, to synthesize a metal oxide, the metal and oxygen can be reacted at high temperature to promote the direct combination of the two. However, factors such as temperature and oxygen flow rate will affect the purity and yield of the product.
The second is the chemical reaction method in solution. The raw material is dissolved in a suitable solvent, and the reaction is initiated by controlling the pH, temperature, and concentration of the reactants in the solution. This method is conducive to precise regulation of the reaction process, and most reactions can be carried out under relatively mild conditions. Taking the preparation of certain salt compounds as an example, a solution containing corresponding metal ions and acid ions can be mixed and the target product can be obtained by metathesis reaction. During operation, attention should be paid to the concentration ratio of the solution to prevent the formation of impurities. At the same time, subsequent operations such as filtration and crystallization may be required after the reaction to purify the product.
The third is the multi-step reaction method in organic synthesis. If the compound structure is complex, it often needs to be achieved through multi-step organic reactions. Each step of the reaction requires strict control of conditions to ensure the selectivity and yield of the reaction. Such as the synthesis of complex organic drug molecules, or the introduction and transformation of functional groups first, and then the structure of the target molecule is constructed through reactions such as cyclization and condensation. This process requires in-depth understanding of the organic reaction mechanism, and product separation and purification are required after each step of the reaction to ensure the smooth progress of the next reaction.
The fourth is biosynthesis. Compounds are synthesized by enzymes or microorganisms in living organisms. Biosynthesis has the advantages of mild reaction conditions and high selectivity. For example, the use of microbial fermentation to produce certain antibiotics, enzymes in microorganisms can catalyze specific biochemical reactions to synthesize target products. However, biosynthesis is limited by biological growth conditions, such as temperature, pH value, nutrients, etc., and the separation and purification of products is relatively complicated.
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