Abstract
Recently in Science, Hutchings and co-workers reported an efficient TS-1-supported AuPd alloy nanoparticle catalyst that produced cyclohexanone oxime with a selectivity > 95% through the in-situ-generated H2O2, comparable to the current industrial route. The use of in-situ-generated H2O2 can achieve great cost savings in current industrial production of oxime and is believed to have bright prospects in other industrial chemical reactions that need H2O2. Recently in Science, Hutchings and co-workers reported an efficient TS-1-supported AuPd alloy nanoparticle catalyst that produced cyclohexanone oxime with a selectivity > 95% through the in-situ-generated H2O2, comparable to the current industrial route. The use of in-situ-generated H2O2 can achieve great cost savings in current industrial production of oxime and is believed to have bright prospects in other industrial chemical reactions that need H2O2.
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