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Triethylamine Azeotrope
The matter of triethylamine azeotrope
The physical properties of the world, there are those who form azeotropic in coordination, and the azeotrope of triethylamine can be studied. Triethylamine, its properties are special, in the azeotropic state, it interacts with other things, showing different properties.
Look at the quality of azeotropics, triethylamine is azeotropic with various things, such as with water, its boiling range is fixed, which is different from the normal. This azeotropic phenomenon is due to the intermolecular force. The structure of triethylamine, a nitrogen-containing atom, has a lone pair of electrons, and can form a hydrogen bond with the hydrogen atom of water, causing the two to be introduced into each other and azeotropic.
And its azeotropics with alcohols can also be observed. The hydroxyl group in the alcohol interacts with triethylamine, or van der Waals force, or the force of hydrogen bonding, so that the two are co-zealous at a specific temperature. This change is related to the structure of the molecule and the strength of the force. Chemists have investigated in detail, analyzing its composition, temperature and pressure changes, in order to understand the mystery of azeotropic.
The use of azeotropic substances involves a wide range of fields. In the chemical industry, it can help to separate and purify. With the azeotropic property of triethylamine, it can be separated from other substances and obtain a pure quality. In the process of pharmaceuticals, it also relies on its power to make the ingredients of the drug refined to comply with the regulations of medicine.
Therefore, triethylamine azeotrope, although it is a micro-matter, has its own importance in science and industry, and it needs to be deeply studied by scholars to develop more of its capabilities.
The physical properties of the world, there are those who form azeotropic in coordination, and the azeotrope of triethylamine can be studied. Triethylamine, its properties are special, in the azeotropic state, it interacts with other things, showing different properties.
Look at the quality of azeotropics, triethylamine is azeotropic with various things, such as with water, its boiling range is fixed, which is different from the normal. This azeotropic phenomenon is due to the intermolecular force. The structure of triethylamine, a nitrogen-containing atom, has a lone pair of electrons, and can form a hydrogen bond with the hydrogen atom of water, causing the two to be introduced into each other and azeotropic.
And its azeotropics with alcohols can also be observed. The hydroxyl group in the alcohol interacts with triethylamine, or van der Waals force, or the force of hydrogen bonding, so that the two are co-zealous at a specific temperature. This change is related to the structure of the molecule and the strength of the force. Chemists have investigated in detail, analyzing its composition, temperature and pressure changes, in order to understand the mystery of azeotropic.
The use of azeotropic substances involves a wide range of fields. In the chemical industry, it can help to separate and purify. With the azeotropic property of triethylamine, it can be separated from other substances and obtain a pure quality. In the process of pharmaceuticals, it also relies on its power to make the ingredients of the drug refined to comply with the regulations of medicine.
Therefore, triethylamine azeotrope, although it is a micro-matter, has its own importance in science and industry, and it needs to be deeply studied by scholars to develop more of its capabilities.
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