Abstract
The pharmaceutically active substance cefotaxime, a commercial cephalosporin-type antibiotic, is accessible in an amide-bond-forming reaction from 7-aminocephalosporanic acid as the amine donor and nonactivated (Z)-(2-aminothiazol-4-yl)-methoxyiminoacetic acid as the acid component with 4-toluenesulfonyl chloride as a coupling reagent, leading to only toluenesulfonic acid as an easy-to-separate byproduct. In this work, optimization of a batch process for this reaction is described as well as the extension toward a continuous process in a tube reactor with a diameter in the millimeter range. An opportunity to avoid the utilization of a chlorinated solvent system has been identified, thus contributing to the development of an ecologically friendly process. It was further shown that a higher reaction temperature of up to −10 °C is possible for the reaction when the process is conducted in a continuously operating fashion, which is an advantage from the perspective of energy demand. Thus, compared with the ba...
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