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The production process of 9-(4-tert-Butylphenyl)-3,6-bis(triphenylsilyl)-9H-carbazole, also known as TBPC, is a complex and multi-step process that involves several different chemical reactions.
The final product is a highly valuable material that is used in a variety of electronic devices, such as organic light-emitting diodes (OLEDs) and solar cells.
The production process of TBPC begins with the synthesis of a precursor molecule, 9H-carbazole-3,6-dione.
This precursor is then reacted with 4-tert-butylphenylboronic acid to form the TBPC molecule.
The final step in the production process is the reaction of TBPC with triphenylsilyl chloride, which results in the formation of the final product, 9-(4-tert-Butylphenyl)-3,6-bis(triphenylsilyl)-9H-carbazole.
The synthesis of 9H-carbazole-3,6-dione, the precursor molecule, is typically accomplished through a reaction known as the nitration of 3-methyl-2H-1,2,4-triazepine.
This reaction involves the addition of nitric acid to 3-methyl-2H-1,2,4-triazepine, which results in the formation of 3-methyl-2H-1,2,4-triazepine-7-oxide.
This oxide is then reduced using hydrogen in the presence of a metal catalyst, such as palladium or platinum, to form the desired carbazole precursor.
Once the precursor molecule has been synthesized, it is reacted with 4-tert-butylphenylboronic acid in the presence of a metal catalyst, such as copper or zinc, to form TBPC.
This reaction involves the formation of a boronate ester, which is then cleaved to form the final TBPC molecule.
The final step in the production process is the reaction of TBPC with triphenylsilyl chloride in the presence of a metal catalyst, such as platinum or rhodium.
This reaction results in the formation of the final product, 9-(4-tert-Butylphenyl)-3,6-bis(triphenylsilyl)-9H-carbazole.
The production process of TBPC is a complex and multi-step process that involves several different chemical reactions.
The final product is a highly valuable material that is used in a variety of electronic devices, such as organic light-emitting diodes (OLEDs) and solar cells.
The TBPC molecule is a key component in these devices, as it is capable of efficiently transporting electrons and holes, which are the charge carriers in organic semiconductors.
The production process of TBPC is critical to the development of new and improved electronic devices, and ongoing research is focused on optimizing the process to increase efficiency and reduce costs.
