Molecular sieve manufacturer explains how the framework composition of molecular sieve is
We know that when using molecular sieves, we should first understand its composition, which is convenient for subsequent work. Its skeleton is a very good component, which is conducive to the stability of the product. However, many users do not know the skeleton composition of this product. Today, the
molecular sieve manufacturer will give a detailed explanation on its skeleton composition.
1. Molecular sieve is a very fine material. Its adsorption function is widely used in industry. I think you are a little confused about its skeleton composition. Next, we will use this skeleton combination to systematically understand the use effect of the product. You can learn from it if you are interested.
Molecular sieve is an inorganic aluminosilicate compound with high temperature resistance and good thermal stability. It is easy to develop, can be reused for many times, and bones will not be decomposed by microorganisms.
2. The main components of molecular sieve are siloxane tetrahedron and aluminum oxide tetrahedron. Because the valence of aluminum is 3 and the valence of oxygen atoms in aluminum oxide tetrahedron AlO4 is unbalanced, the whole aluminum oxide tetrahedron is negatively charged. In order to maintain electrical neutrality, positive charged metal ions are needed near the tetrahedron of alumina to offset its negative charges. Strong electric fields will be generated between positively charged metal ions and negatively charged molecular sieve framework, which has a great impact on the adsorption performance of molecular sieve.
The product has much stronger adsorption capacity for polar substances than non-polar substances. At the same time, due to the effect of strong electric field, substances containing double bonds or large π bonds also have considerable adsorption capacity through inductive polarization. Generally speaking, the more charges carried by cations, the smaller the ionic radius, the stronger the electric field generated, the greater the induction of double bonds, and the greater the adsorption capacity of these substances.
According to the above analysis, the skeleton composition of molecular sieve well illustrates its performance. Its skeleton will not be decomposed by other substances, and it is a product with good cost performance. Therefore, when we choose it, we must be clear about its performance and composition, so that the subsequent work will be more smooth.