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SiMCP, also known as 9,9'-(5-(triphenylsilyl)-1,3-phenylene)bis(9H-carbazole), is a molecule used in organic electronics and in particular in organic thin-film solar cells.
The production process of SiMCP involves several steps, including the synthesis of the starting material, the purification of the synthesized compound, and the formation of the final product.
The synthesis of the starting material, 5-(triphenylsilyl)-1,3-phenylene, is usually carried out by a reaction between 1,3-phenylene diamine and triphenyl phosphite in the presence of an organic solvent.
The reaction is usually carried out in a batch reactor and the product is isolated by filtration and washing with water.
The purification of the synthesized compound is important to remove any impurities that may affect the final product.
This is usually done by recrystallization or by chromatography.
Recrystallization is a process in which the compound is dissolved in a solvent, and the crystals are allowed to form by slow evaporation of the solvent.
Chromatography is a process in which the compound is purified by running it through a column packed with a solid material, such as silica gel or alumina, which selectively adsorbs the impurities.
Once the starting material is purified, it is then reacted with another compound, 9H-carbazole, in the presence of a coupling reagent such as Cu(I) iodide.
This reaction is usually carried out in a solvent such as DMF or DMA, and the product is isolated by filtration and washing with water and a solvent such as ethyl acetate.
The final product, SiMCP, is a solid that can be easily ground into a powder for use in the production of organic thin-film solar cells.
The properties of SiMCP, such as its optical and electrical properties, can be tailored by adjusting the reaction conditions, such as the reaction temperature, solvent, and the amount of the starting materials used.
In conclusion, the production process of SiMCP involves several steps including the synthesis of the starting material, the purification of the synthesized compound, and the formation of the final product.
The purity of the final product is important to ensure that it meets the desired specifications for use in organic thin-film solar cells.
The properties of SiMCP can be tailored by adjusting the reaction conditions, and this molecule is an important building block for the production of organic thin-film solar cells.
