2026-04-13T00:59:34Zhttps://recercat.cat/oai/requestoai:recercat.cat:2072/4890792026-01-12T12:51:59Zcom_2072_300912com_2072_4427col_2072_301309
00925njm 22002777a 4500
dc
Song, Kyung Seob
author
Najafov, Murad
author
González Acosta, José Manuel
author
Ruiz Ferrando, Andrea
author
Pollitt, Stephan
author
Fritz, Patrick W.
author
Ashirov, Timur
author
Piech, Krzysztof
author
Gándara, Felipe
author
Nachtegaal, Maarten
author
López, Núria
author
Coskun, Ali
author
2026-01-01
Single-atom catalysts (SACs) offer stable, well-defined active sites by anchoring individual metal atoms on stable organic or inorganic supports, though achieving high metal loadings without clustering or leaching remains a major challenge. Here, we report a synthetic strategy for developing ultra-high metal loading SACs based on palladium polyphthalocyanine covalent organic frameworks (COFs) synthesized via a mixed metal ionothermal approach, which involves the cyclization of tetracyanobenzene and tetracyanopyrazine as precursors in molten salt mixtures of PdCl2/ZnCl2 or PdCl2/ZnCl2/NaCl. This approach effectively combines the formation of crystalline polymeric hosts with metal impregnation in a single step, yielding COFs with atomically distributed Pd ions and metal contents of up to 22.2 wt%. Theoretical simulations reveal that the crystalline framework dynamically confines Pd atoms between different binding sites within the pores, preventing dimerization and ensuring long-term catalyst stability. The synthesized catalysts were evaluated under continuous flow conditions, exhibiting stable performance with yields as high as 90% and maintaining stability over a 24 h time-on-stream under low-conversion conditions. These results establish a new benchmark for SACs and underscore the importance of dynamic confinement approach in achieving high metal loadings on crystalline organic supports.
http://hdl.handle.net/2072/489079
https://doi.org/10.1002/anie.202522238
Dynamic Confinement Approach for High Metal Loading Single-Atom Catalysts Based on Covalent Organic Frameworks