Engineering heterogeneous catalysis with strong metal–support interactions: characterization, theory and manipulation
Strong metal–support interactions (SMSI) represent a classic yet fast‐growing area in
catalysis research. The SMSI phenomenon results in the encapsulation and stabilization of …
catalysis research. The SMSI phenomenon results in the encapsulation and stabilization of …
Renaissance of strong metal–support interactions
Strong metal–support interactions (SMSIs) have emerged as a significant and cutting-edge
area of research in heterogeneous catalysis. They play crucial roles in modifying the …
area of research in heterogeneous catalysis. They play crucial roles in modifying the …
Generation of oxide surface patches promoting H-spillover in Ru/(TiOx)MnO catalysts enables CO2 reduction to CO
The migration of reducible metal oxides (for example, TiO2) to the surface of metal
nanoparticles can inhibit sintering but has a strong negative impact on the catalytic activity …
nanoparticles can inhibit sintering but has a strong negative impact on the catalytic activity …
Structured catalysts and catalytic processes: transport and reaction perspectives
The structure of catalysts determines the performance of catalytic processes. Intrinsically, the
electronic and geometric structures influence the interaction between active species and the …
electronic and geometric structures influence the interaction between active species and the …
Metal–support interactions in metal/oxide catalysts and oxide–metal interactions in oxide/metal inverse catalysts
Solid catalysts usually consist of multicomponents, within which interfacial interactions have
been recognized as a key factor affecting structures and catalytic performance. Metal …
been recognized as a key factor affecting structures and catalytic performance. Metal …
Overturning CO2 Hydrogenation Selectivity with High Activity via Reaction-Induced Strong Metal–Support Interactions
Encapsulation of metal nanoparticles by support-derived materials known as the classical
strong metal–support interaction (SMSI) often happens upon thermal treatment of supported …
strong metal–support interaction (SMSI) often happens upon thermal treatment of supported …
Interfacial compatibility critically controls Ru/TiO2 metal-support interaction modes in CO2 hydrogenation
Supports can widely affect or even dominate the catalytic activity, selectivity, and stability of
metal nanoparticles through various metal-support interactions (MSIs). However, underlying …
metal nanoparticles through various metal-support interactions (MSIs). However, underlying …
Ruthenium-cobalt single atom alloy for CO photo-hydrogenation to liquid fuels at ambient pressures
Abstract Photothermal Fischer-Tropsch synthesis represents a promising strategy for
converting carbon monoxide into value-added chemicals. High pressures (2-5 MPa) are …
converting carbon monoxide into value-added chemicals. High pressures (2-5 MPa) are …
Structure Sensitivity of Au‐TiO2 Strong Metal–Support Interactions
Strong metal–support interactions (SMSI) is an important concept in heterogeneous
catalysis. Herein, we demonstrate that the Au‐TiO2 SMSI of Au/TiO2 catalysts sensitively …
catalysis. Herein, we demonstrate that the Au‐TiO2 SMSI of Au/TiO2 catalysts sensitively …
Strong Metal–Support Interaction Boosts Activity, Selectivity, and Stability in Electrosynthesis of H2O2
Noble metals have an irreplaceable role in catalyzing electrochemical reactions. However,
large overpotential and poor long-term stability still prohibit their usage in many reactions …
large overpotential and poor long-term stability still prohibit their usage in many reactions …