In the next few decades, the world population will flourish. As the population grows rapidly and people all over the world use more and more resources, all industries must consider their environmental impact. 623-26-7, name is Terephthalonitrile belongs to nitriles-buliding-blocks compound, it is a common compound, a new synthetic route is introduced below. Recommanded Product: Terephthalonitrile
EXAMPLE 2 Hydrogenation of Terephthalonitrile Into a 100-ml autoclave, were charged 3.2 g of terephthalonitrile, 10.4 g of mesitylene, 10.0 g of liquid ammonia and 2.0 g of Pd-alumina pellets (manufactured by N.E. Chemcat Corporation; Pd content = 5% by weight), and the inner pressure was raised to 4.9 MPa by hydrogen gas. Then, the autoclave was shaken at 50C until the change of pressure was no longer appreciated. The analysis on the reaction product solution showed that the conversion of terephthalonitrile was 94.8 mol%, the yield of 4-cyanobenzylamine was 88.8 mol% and the yield of p-xylynenediamine was 5.8 mol%. The reaction solution separated from the catalyst was charged into a 100-ml autoclave together with 10.0 g of liquid ammonia and 2.0 g of Ni-diatomaceous earth pellets (manufactured by Nikki Chemical Co., Ltd.; Ni supported amount = 46% by weight). The inner pressure was raised to 4.9 MPa by hydrogen gas. Then, the autoclave was shaken at 50C until the change of pressure was no longer appreciated. The analysis on the reaction product solution showed that the conversion of terephthalonitrile was 100 mol%, the yield of 4-cyanobenzylamine was 0.5 mol% and the yield of p-xylynenediamine was 87.7 mol%. EXAMPLE 5 Hydrogenation of Terephthalonitrile Into a 100-ml autoclave, were charged 3.2 g of terephthalonitrile, 10.4 g of mesitylene, 10.0 g of liquid ammonia and 2.0 g of Pd-alumina pellets (manufactured by N.E. Chemcat Corporation; Pd content = 5% by weight), and the inner pressure was raised to 4.9 MPa by hydrogen gas. Then, the autoclave was shaken at 50C until the change of pressure was no longer appreciated. The analysis on the reaction product solution showed that the conversion of terephthalonitrile was 94.8 mol%, the yield of 4-cyanobenzylamine was 88.8 mol% and the yield of p-xylynenediamine was 5.8 mol%. The reaction solution separated from the catalyst was charged into a 100-ml autoclave together with 10.0 g of liquid ammonia and 2.0 g of the catalyst A. The inner pressure was raised to 4.9 MPa by hydrogen gas. Then, the autoclave was shaken at 50C until the change of pressure was no longer appreciated. The analysis on the reaction product solution showed that the conversion of terephthalonitrile was 100 mol%, the yield of 4-cyanobenzylamine was 0.2 mol% and the yield of p-xylynenediamine was 92.1 mol%.
The synthetic route of 623-26-7 has been constantly updated, and we look forward to future research findings.
Reference:
Patent; MITSUBISHI GAS CHEMICAL COMPANY, INC.; EP1449825; (2004); A1;,
Nitrile – Wikipedia,
Nitriles – Chemistry LibreTexts