Influence of Copper Oxidation State on the Bonding and Electronic Structure of Cobalt-Copper Complexes Read more about Influence of Copper Oxidation State on the Bonding and Electronic Structure of Cobalt-Copper Complexes
Heterobimetallic Complexes that Bond Vanadium to Iron, Cobalt, and Nickel Read more about Heterobimetallic Complexes that Bond Vanadium to Iron, Cobalt, and Nickel
Thermal Stabilization of Metal–Organic Framework-Derived Single-Site Catalytic Clusters through Nanocasting Read more about Thermal Stabilization of Metal–Organic Framework-Derived Single-Site Catalytic Clusters through Nanocasting
Leveraging Molecular Metal-Support Interactions for H2 and N2 Activation Read more about Leveraging Molecular Metal-Support Interactions for H2 and N2 Activation
Installing Heterobimetallic Cobalt-Aluminum Single-Sites on a Metal Organic Framework Support Read more about Installing Heterobimetallic Cobalt-Aluminum Single-Sites on a Metal Organic Framework Support
Redox Pairs of Diiron and Iron-Cobalt Complexes with High-Spin Ground States Read more about Redox Pairs of Diiron and Iron-Cobalt Complexes with High-Spin Ground States
Structure and Dynamic NMR Behavior of Rhodium Complexes Supported by Lewis Acidic Group 13 Metallatranes Read more about Structure and Dynamic NMR Behavior of Rhodium Complexes Supported by Lewis Acidic Group 13 Metallatranes
Assembly of Dicobalt and Cobalt-Aluminum Oxide Clusters on Metal-Organic Framework and Nanocast Silica Supports Read more about Assembly of Dicobalt and Cobalt-Aluminum Oxide Clusters on Metal-Organic Framework and Nanocast Silica Supports
Stable Dihydrogen Complexes of Cobalt(-I) Suggest an Inverse trans-Influence of Lewis Acidic Group 13 Metalloligands Read more about Stable Dihydrogen Complexes of Cobalt(-I) Suggest an Inverse trans-Influence of Lewis Acidic Group 13 Metalloligands
A Bimetallic Nickel-Gallium Complex Catalyzes CO2 Hydrogenation via the Intermediacy of an Anionic d10 Nickel Hydride Read more about A Bimetallic Nickel-Gallium Complex Catalyzes CO2 Hydrogenation via the Intermediacy of an Anionic d10 Nickel Hydride