Artigo ‘Single-Atoms on Crystalline Carbon Nitrides for Selective C─H Photooxidation: A Bridge to Achieve Homogeneous Pathways in Heterogeneous Materials‘, recém-publicado na revista AdvancedMaterials de co-autoria do Prof. Dr. Ivo Texeira, pesquisador do CERSusChem

Artigo ‘Single-Atoms on Crystalline Carbon Nitrides for Selective C─H Photooxidation: A Bridge to Achieve Homogeneous Pathways in Heterogeneous Materials‘, recém-publicado na revista AdvancedMaterials de co-autoria do Prof. Dr. Ivo Texeira, pesquisador do CERSusChem

BR Pesquisa recém-publicada na revista AdvancedMaterials de co-autoria do Prof. Dr. Ivo Texeira, pesquisador do CERSusChem, demonstra um método de troca catiônica simples e versátil mais sustentável! A catálise de átomos únicos é um campo importante na ciência atual, combinando aspectos da catálise homogênea e heterogênea. No ‘Single-Atoms on Crystalline Carbon Nitrides for Selective C─H Photooxidation: A Bridge to Achieve Homogeneous Pathways in Heterogeneous Materials‘, os pesquisadores desenvolveram uma maneira simples de estabilizar ferro e manganês (metais de baixo custo) em materiais comuns. Esses materiais foram usados para converter tolueno em benzaldeído de forma seletiva, e o método também funcionou bem com outros produtos químicos. Essas investigações mostram que os catalisadores de ferro e manganês agem de maneira semelhante, formando sítios com alto estado de oxidação e extremamente oxidativos. Com os resultados desse trabalho, os pesquisadores estão entusiasmados com o potencial desses catalisadores na criação de reações mais seletivas e sustentáveis!

US
A recent research published in the journal AdvancedMaterials, co-authored by Prof. Dr. Ivo Teixeira, a researcher at CERSusChem, demonstrates a simple and versatile sustainable method of cationic exchange! Single-atom catalysis is an important field in current science, combining aspects of homogeneous and heterogeneous catalysis. In theis study ‘Single-Atoms on Crystalline Carbon Nitrides for Selective C─H Photooxidation: A Bridge to Achieve Homogeneous Pathways in Heterogeneous Materials’, researchers developed a straightforward way to stabilize low-cost iron and manganese into common materials. These materials were used to selectively convert toluene into benzaldehyde, and the method also worked well with other chemicals. These investigations show that iron and manganese catalysts act similarly, forming sites with a high oxidation state and extremely oxidative. With the results of this work, researchers are excited about the potential of these catalysts in creating more selective and sustainable reactions!

Link: https://onlinelibrary.wiley.com/doi/10.1002/adma.202304152