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Benzenemethanaminium, N,N,N-Trimethyl-, Dichloroiodate(1-)
Linshang Chemical
|
HS Code |
164030 |
| Chemical Formula | C10H16Cl2IN |
| Molecular Weight | 358.05 |
| Appearance | Solid (usually) |
| Solubility | Soluble in some polar organic solvents |
| Physical State At Room Temp | Solid |
| Odor | May have a characteristic organic odor |
| Color | Often appears as a white - off - white solid |
| Melting Point | Data may vary, needs experimental determination |
| Hazard Class | May be harmful if swallowed, inhaled or in contact with skin, and iodine - containing compounds may have oxidizing properties |
As an accredited Benzenemethanaminium, N,N,N-Trimethyl-, Dichloroiodate(1-) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100g of Benzenemethanaminium, N,n,n - trimethyl -, Dichloroiodate(1 -) in sealed chemical - grade packaging. |
| Storage | **Storage of Benzenemethanaminium, N,n,n - trimethyl -, Dichloroiodate(1 - )** Store this chemical 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, which could potentially cause decomposition. Isolate it from incompatible substances like strong oxidizers and reducing agents to avoid dangerous reactions. |
| Shipping | The chemical "Benzenemethanaminium, N,n,n - trimethyl -, Dichloroiodate(1 - )" must be shipped in accordance with strict hazardous materials regulations. Use proper packaging to prevent leakage, label containers clearly, and ensure compliance with transport safety standards. |
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What is the chemical structure of Benzenemethanaminium, N, n, n - trimethyl -, Dichloroiodate (1 -)?
This is a question about the structure of the compound. The compound is called benzyltrimethylammonium dichloroiodate and is composed of a cation and an anion. The cation is benzyltrimethylammonium ion, in which benzyl ($C_6H_5CH_2 - $) is a benzene ring-linked methylene, the methylene is connected to the nitrogen atom, and the nitrogen atom is connected to three methyl groups ($- CH_3 $) to form a positively charged ammonium ionic structure. This structure benefits from the outer electron bonding characteristics of the nitrogen atom, and obtains an additional positive charge. The anion is the dichloroiodate ion ($ICl_2 ^ - $), the iodine atom is in the center, connected to the two chlorine atoms, and the whole carries a unit negative charge. The iodine atom takes the form of this anion due to the structure of the valence electron layer and the bonding with the chlorine atom. The anion and cation interact with each other with electrostatic attractive force to form this compound, which maintains structural stability under certain conditions. This structure determines that the compound has its own unique chemical properties and reactivity, and plays a specific role in a specific chemical reaction or material system.
What are the physical properties of Benzenemethanaminium, N, n, n - trimethyl -, Dichloroiodate (1 -)?
The physical properties of aniline, N, N, N-trimethyl-, dichloroiodate (1 -) are as follows:
This is an ionic compound composed of N, N, N-trimethyl derivatives of cationic aniline and anionic dichloroiodate.
In terms of appearance, it is difficult to determine its specific state without more information. However, many similar organic ammonium salts are mostly solids at room temperature. In terms of solubility, in view of the fact that cations contain organic groups and anions have a certain hydrophilicity, they may have a certain solubility in polar organic solvents such as alcohols and acetonitrile; in water, depending on the characteristics of ions, they may also have considerable solubility.
In terms of stability, iodine in dichloroiodate is in a higher oxidation state or has a certain oxidation property. This compound may undergo oxidation-reduction reactions under specific conditions such as heating and reducing agents. And because it is an ionic compound, under some extreme conditions, the interaction between anions and cations may be destroyed, causing it to decompose.
Melting point and boiling point, due to lack of specific experimental data, it is difficult to have exact values. However, the melting point of general organic ammonium salts is relatively low, or within a few hundred degrees. Its boiling point is affected by the decomposition temperature, and it does not reach the conventional boiling point, or it has decomposed.
The density is also not experimentally determined, but it can be roughly inferred from the type and number of atoms in its structure, and its density may be between common organic compounds and inorganic salts.
In summary, the physical properties of this compound are determined by its unique structure, and it exhibits diverse characteristics under different conditions.
This is an ionic compound composed of N, N, N-trimethyl derivatives of cationic aniline and anionic dichloroiodate.
In terms of appearance, it is difficult to determine its specific state without more information. However, many similar organic ammonium salts are mostly solids at room temperature. In terms of solubility, in view of the fact that cations contain organic groups and anions have a certain hydrophilicity, they may have a certain solubility in polar organic solvents such as alcohols and acetonitrile; in water, depending on the characteristics of ions, they may also have considerable solubility.
In terms of stability, iodine in dichloroiodate is in a higher oxidation state or has a certain oxidation property. This compound may undergo oxidation-reduction reactions under specific conditions such as heating and reducing agents. And because it is an ionic compound, under some extreme conditions, the interaction between anions and cations may be destroyed, causing it to decompose.
Melting point and boiling point, due to lack of specific experimental data, it is difficult to have exact values. However, the melting point of general organic ammonium salts is relatively low, or within a few hundred degrees. Its boiling point is affected by the decomposition temperature, and it does not reach the conventional boiling point, or it has decomposed.
The density is also not experimentally determined, but it can be roughly inferred from the type and number of atoms in its structure, and its density may be between common organic compounds and inorganic salts.
In summary, the physical properties of this compound are determined by its unique structure, and it exhibits diverse characteristics under different conditions.
What are the chemical properties of Benzenemethanaminium, N, n, n - trimethyl -, Dichloroiodate (1 -)?
Phenylbenzamidonium, N, N-trimethyl-, dichloroiodate (1 -) is a class of chemical substances. Its chemical properties are unique and valuable for investigation.
In this compound, the part of anylbenzamidonium is endowed with certain stability and special electronic effects due to the conjugate structure of the benzene ring. The presence of the benzene ring makes the molecule hydrophobic and can participate in non-covalent interactions such as π-π stacking. The substituent of N, N, N-trimethyl changes the electron cloud density and steric resistance of nitrogen atoms. The electron cloud density of the nitrogen atom is increased by the electron electron effect of the methyl group, which enhances its ability to bind to other groups, and also affects the polarity and solubility of the molecule as a whole.
The part of dichloroiodate, the iodine atom is in a higher oxidation state and has a certain oxidation property. The coordination of dichloride affects the reactivity and stability of the iodine atom. This part can be used as an electrophilic reagent in chemical reactions, participating in electrophilic substitution and other reactions, and may also release iodine ions under specific conditions to participate in the redox process.
Overall, the chemical properties of benzamidonium, N, N-trimethyl-, dichloroiodate (1 -) are determined by the synergy of their various parts, and may have potential applications in organic synthesis, materials science, etc. It can be used as a special reagent to participate in various chemical reactions, providing new opportunities and approaches for the development of related fields.
In this compound, the part of anylbenzamidonium is endowed with certain stability and special electronic effects due to the conjugate structure of the benzene ring. The presence of the benzene ring makes the molecule hydrophobic and can participate in non-covalent interactions such as π-π stacking. The substituent of N, N, N-trimethyl changes the electron cloud density and steric resistance of nitrogen atoms. The electron cloud density of the nitrogen atom is increased by the electron electron effect of the methyl group, which enhances its ability to bind to other groups, and also affects the polarity and solubility of the molecule as a whole.
The part of dichloroiodate, the iodine atom is in a higher oxidation state and has a certain oxidation property. The coordination of dichloride affects the reactivity and stability of the iodine atom. This part can be used as an electrophilic reagent in chemical reactions, participating in electrophilic substitution and other reactions, and may also release iodine ions under specific conditions to participate in the redox process.
Overall, the chemical properties of benzamidonium, N, N-trimethyl-, dichloroiodate (1 -) are determined by the synergy of their various parts, and may have potential applications in organic synthesis, materials science, etc. It can be used as a special reagent to participate in various chemical reactions, providing new opportunities and approaches for the development of related fields.
What are the main uses of Benzenemethanaminium, N, n, n - trimethyl -, Dichloroiodate (1 -)?
Benzammonium, N, N, N-trimethyl-, dichloroiodate (1 -) This chemical substance has a wide range of main uses. In the field of chemical synthesis, it can be used as an important reaction reagent. Due to its unique chemical structure, it can act as a catalyst or participate in key reaction steps in specific organic synthesis reactions, helping to generate complex organic compounds.
In the field of materials science, it may be used to prepare special functional materials. By combining with other substances, it changes the surface properties or internal structure of materials, endows materials with unique properties such as antibacterial and electrical conductivity, and then applies to multiple fields such as electronics and medical treatment.
In the level of scientific research and exploration, it is a commonly used chemical reagent in laboratories. Scientists use it to conduct various chemical experiments and mechanism studies to clarify chemical reaction paths and material interaction mechanisms, and lay the foundation for the birth of new chemical theories and technologies.
As "Tiangong Kaiwu" says, all kinds of substances in the world have their uses, and this chemical substance is no exception. In today's scientific and technological development, it plays a key role in different fields, promoting progress and innovation in various industries.
In the field of materials science, it may be used to prepare special functional materials. By combining with other substances, it changes the surface properties or internal structure of materials, endows materials with unique properties such as antibacterial and electrical conductivity, and then applies to multiple fields such as electronics and medical treatment.
In the level of scientific research and exploration, it is a commonly used chemical reagent in laboratories. Scientists use it to conduct various chemical experiments and mechanism studies to clarify chemical reaction paths and material interaction mechanisms, and lay the foundation for the birth of new chemical theories and technologies.
As "Tiangong Kaiwu" says, all kinds of substances in the world have their uses, and this chemical substance is no exception. In today's scientific and technological development, it plays a key role in different fields, promoting progress and innovation in various industries.
What are the methods for preparing Benzenemethanaminium, N, n, n - trimethyl -, Dichloroiodate (1 -)?
The method for preparing N, N, N - trimethylbenzonium dichloroiodate (Benzenemethanaminium, N, n, n - trimethyl -, Dichloroiodate (1 -)) is as follows:
First take an appropriate amount of benzolamine and place it in a clean reaction vessel. With fine operation, slowly add trimethylamine. This process needs to be carried out under mild temperature and stirring conditions to make the two fully contact and react. When reacting, pay close attention to changes in temperature to prevent the reaction from getting out of control due to excessive temperature.
After the reaction between the two is sufficient to generate N, N, N-trimethylbenzammonium salt, take another container and prepare dichloroiodate ion. Take an appropriate amount of iodine, place it in a chlorine-containing solution, and add specific reagents and conditions to promote the reaction between iodine and chlorine to form dichloroiodate ion. In this step, the amount of reagent, the temperature and time of the reaction need to be precisely controlled to produce pure dichloroiodate ion.
Then, carefully mix the solution containing N, N, N-trimethylbenzammonium salt with the solution containing dichloroiodate ion. When mixing, it is also necessary to maintain appropriate stirring and temperature conditions, so that the two can undergo ion exchange reaction to generate N, N, N-trimethylbenzonium dichloroiodate.
After the reaction is completed, the product can be separated from the reaction system by appropriate separation means, such as filtration, crystallization, etc. And wash and recrystallize with a suitable solvent to improve the purity of the product and obtain pure N, N, N-trimethylbenzonium dichloroiodate.
First take an appropriate amount of benzolamine and place it in a clean reaction vessel. With fine operation, slowly add trimethylamine. This process needs to be carried out under mild temperature and stirring conditions to make the two fully contact and react. When reacting, pay close attention to changes in temperature to prevent the reaction from getting out of control due to excessive temperature.
After the reaction between the two is sufficient to generate N, N, N-trimethylbenzammonium salt, take another container and prepare dichloroiodate ion. Take an appropriate amount of iodine, place it in a chlorine-containing solution, and add specific reagents and conditions to promote the reaction between iodine and chlorine to form dichloroiodate ion. In this step, the amount of reagent, the temperature and time of the reaction need to be precisely controlled to produce pure dichloroiodate ion.
Then, carefully mix the solution containing N, N, N-trimethylbenzammonium salt with the solution containing dichloroiodate ion. When mixing, it is also necessary to maintain appropriate stirring and temperature conditions, so that the two can undergo ion exchange reaction to generate N, N, N-trimethylbenzonium dichloroiodate.
After the reaction is completed, the product can be separated from the reaction system by appropriate separation means, such as filtration, crystallization, etc. And wash and recrystallize with a suitable solvent to improve the purity of the product and obtain pure N, N, N-trimethylbenzonium dichloroiodate.
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