Few-Atomic Zero-Valent Palladium Ensembles for Efficient Reductive Dehydrogenation and Dehalogenation Catalysis
Single-atom catalysts (SACs) offer immense potential in heterogeneous catalysis due to
their maximized atomic utilization and high selectivity but suffer the problem of low reactivity …
their maximized atomic utilization and high selectivity but suffer the problem of low reactivity …
Few-Atomic Zero-Valent Palladium Ensembles for Efficient Reductive Dehydrogenation and Dehalogenation Catalysis
Z Li, Z Guo, X Wu, X Jiang, H Li, J Xu, K Yang… - ACS …, 2023 - pubmed.ncbi.nlm.nih.gov
Single-atom catalysts (SACs) offer immense potential in heterogeneous catalysis due to
their maximized atomic utilization and high selectivity but suffer the problem of low reactivity …
their maximized atomic utilization and high selectivity but suffer the problem of low reactivity …
Few-Atomic Zero-Valent Palladium Ensembles for Efficient Reductive Dehydrogenation and Dehalogenation Catalysis.
Z Li, Z Guo, X Wu, X Jiang, H Li, J Xu, K Yang, D Lin - ACS Nano, 2023 - europepmc.org
Single-atom catalysts (SACs) offer immense potential in heterogeneous catalysis due to
their maximized atomic utilization and high selectivity but suffer the problem of low reactivity …
their maximized atomic utilization and high selectivity but suffer the problem of low reactivity …
Few-Atomic Zero-Valent Palladium Ensembles for Efficient Reductive Dehydrogenation and Dehalogenation Catalysis
Z Li, Z Guo, X Wu, X Jiang, H Li, J Xu, K Yang… - ACS …, 2023 - tohoku.elsevierpure.com
Single-atom catalysts (SACs) offer immense potential in heterogeneous catalysis due to
their maximized atomic utilization and high selectivity but suffer the problem of low reactivity …
their maximized atomic utilization and high selectivity but suffer the problem of low reactivity …