Add to ORKGAtomically dispersed catalysts such as single-atom catalysts have been shown to be effective in selectively oxidizing methane, promising a direct synthetic route to value-added oxygenates such as acetic acid or methanol. However, an important challenge of this approach has been that the loading of active sites by single-atom catalysts is low, leading to a low overall yield of the products. Here, we report an approach that can address this issue. It utilizes a metal-organic framework built with porphyrin as the linker, which provides high concentrations of binding sites to support atomically dispersed rhodium. It is shown that up to 5 wt% rhodium loading can be achieved with excellent dispersity. When used for acetic acid synthesis by methan...
Single-atom catalysts have recently been applied in many applications such as CO oxidation. Experime...
International audienceDirect functionalization of methane selectively to value-added chemicals is st...
Minimizing the use of precious metal catalysts is important in many applications. Single-atom cataly...
Direct oxidation of methane into value-added liquid chemicals is a promising route for wide applicat...
Catalytic transformation of CH4 under a mild condition is significant for efficient utilization of s...
Direct methane conversion into value-added products has become increasingly important. Because of in...
The production of C2 compounds in an aqueous solution by efficient and selective electro-conversion ...
In this dissertation, we have employed a multi-faceted approach, combing well-controlled synthesis t...
Acetic acid is a valuable industrial chemical obtained by the halide-free carbonylation of methanol,...
ConspectusMethane represents one of the most abundant carbon sources for fuel or chemical production...
The direct conversion of methane is still a challenge. Here, an enhanced catalyst for direct and sel...
A frontier challenge in single-atom (SA) catalysis is the design of fully inorganic sites capable of...
A frontier challenge in single-atom (SA) catalysis is the design of fully inorganic sites capable of...
Synthesis gas (CO + H<sub>2</sub>) conversion is a promising route to converting coal, natural gas, ...
Here we report a photocatalytic system based on crystalline carbon nitrides (PHI) and highly dispers...
Single-atom catalysts have recently been applied in many applications such as CO oxidation. Experime...
International audienceDirect functionalization of methane selectively to value-added chemicals is st...
Minimizing the use of precious metal catalysts is important in many applications. Single-atom cataly...
Direct oxidation of methane into value-added liquid chemicals is a promising route for wide applicat...
Catalytic transformation of CH4 under a mild condition is significant for efficient utilization of s...
Direct methane conversion into value-added products has become increasingly important. Because of in...
The production of C2 compounds in an aqueous solution by efficient and selective electro-conversion ...
In this dissertation, we have employed a multi-faceted approach, combing well-controlled synthesis t...
Acetic acid is a valuable industrial chemical obtained by the halide-free carbonylation of methanol,...
ConspectusMethane represents one of the most abundant carbon sources for fuel or chemical production...
The direct conversion of methane is still a challenge. Here, an enhanced catalyst for direct and sel...
A frontier challenge in single-atom (SA) catalysis is the design of fully inorganic sites capable of...
A frontier challenge in single-atom (SA) catalysis is the design of fully inorganic sites capable of...
Synthesis gas (CO + H<sub>2</sub>) conversion is a promising route to converting coal, natural gas, ...
Here we report a photocatalytic system based on crystalline carbon nitrides (PHI) and highly dispers...
Single-atom catalysts have recently been applied in many applications such as CO oxidation. Experime...
International audienceDirect functionalization of methane selectively to value-added chemicals is st...
Minimizing the use of precious metal catalysts is important in many applications. Single-atom cataly...