The formation of metal–ligand coordination networks on surfaces that contain redox isomers is a topic of considerable interest and is important for bifunctional metallochemistry, including heterogeneous catalysis. Towards this end, a tetrazine with two electron withdrawing pyrimidinyl substituents was co-deposited with platinum metal on the Au(100) surface. In a 2:1 metal:ligand ratio, only half of the platinum is oxidized to the +2 oxidation state, with the remainder coordinating to the ligand without charge transfer, as Pt0. The resultant Pt0/PtII mixed valence structure is thought to form due to the aversion of the ligand towards a four-electron reduction and the strong preference of Pt towards 0 and +2 oxidation states. These results we...
Many homogeneous and heterogeneous catalyst systems contain one or more transition metals. The wides...
Despite its importance in oxidation catalysis, the active phase of Pt remains uncertain, even for th...
Metal catalysts play an important role in industrial redox reactions. Although extensively studied, ...
The formation and stabilization of well-defined transition-metal single sites at surfaces may open n...
Metal–ligand complexation at surfaces utilizing redox‐active ligands has been demonstrated to produc...
The formation of metal–organic complexes on metal surfaces is a research topic of high interest to d...
Metal-organic coordination networks at surfaces, formed by on-surface redox assembly, are of interes...
Rational, systematic tuning of single-site metal centers on surfaces offers a new approach to increa...
designing specific and selective chemical function at surfaces for heterogeneous catalysts and other...
Metal-organic supramolecular chemistry on surfaces has matured to a point where its underlying growt...
Identification of structures of active sites of catalysts under realistic conditions is key for unde...
Structure evolution of Pt-3d transition metal alloys under reductive and oxidizing conditions and ef...
Noble metal alloys are one of the most commonly used heterogeneous catalysts. During many reactions,...
The geometric and electronic structure of two structurally similar metal–organic networks grown on t...
© The formation of metal-oxide interfaces in catalytic systems exhibits a synergistic phenomenon bet...
Many homogeneous and heterogeneous catalyst systems contain one or more transition metals. The wides...
Despite its importance in oxidation catalysis, the active phase of Pt remains uncertain, even for th...
Metal catalysts play an important role in industrial redox reactions. Although extensively studied, ...
The formation and stabilization of well-defined transition-metal single sites at surfaces may open n...
Metal–ligand complexation at surfaces utilizing redox‐active ligands has been demonstrated to produc...
The formation of metal–organic complexes on metal surfaces is a research topic of high interest to d...
Metal-organic coordination networks at surfaces, formed by on-surface redox assembly, are of interes...
Rational, systematic tuning of single-site metal centers on surfaces offers a new approach to increa...
designing specific and selective chemical function at surfaces for heterogeneous catalysts and other...
Metal-organic supramolecular chemistry on surfaces has matured to a point where its underlying growt...
Identification of structures of active sites of catalysts under realistic conditions is key for unde...
Structure evolution of Pt-3d transition metal alloys under reductive and oxidizing conditions and ef...
Noble metal alloys are one of the most commonly used heterogeneous catalysts. During many reactions,...
The geometric and electronic structure of two structurally similar metal–organic networks grown on t...
© The formation of metal-oxide interfaces in catalytic systems exhibits a synergistic phenomenon bet...
Many homogeneous and heterogeneous catalyst systems contain one or more transition metals. The wides...
Despite its importance in oxidation catalysis, the active phase of Pt remains uncertain, even for th...
Metal catalysts play an important role in industrial redox reactions. Although extensively studied, ...