Add to ORKGDeveloping stable yet efficient Au–Ti bifunctional catalysts is important but challenging for direct propylene epoxidation with H2 and O2. This work describes a novel strategy of employing uncalcined titanium silicalite‐2 (TS‐2‐B) to immobilize Au nanoparticles as a bifunctional catalyst for the reaction. Under no promoter effects, the Au/TS‐2‐B catalyst compared to the referenced Au/TS‐1‐B catalyst delivers outstanding catalytic performance, that is, exceptionally high stability over 100 hr, propylene oxide (PO) formation rate of 118 gPO·hr−1·kgcat−1, PO selectivity of 90% and hydrogen efficiency of 35%. The plausible relationship of catalyst structure and performance is established by using multiple techniques, such as UV–vis, high‐angle ...
For direct propene epoxidation with H2/O2, TS-1 with blocked micropores (TS-1-B) is recognized as an...
Designing a stable and selective catalyst with high H2 utilisation is of pivotal importance for the ...
Gold clusters supported on titanium silicalite-1 (hereafter denoted as Au/TS-1) with high gold loadi...
Gradually emerging environmental concerns have triggered the development of highly efficient catalys...
A novel catalyst consisting of gold nanoparticles supported on an uncalcined (with template in) tita...
Au/TS-1 catalysts prepared by deposition–precipitation method are very promising for direct propylen...
It is a challenging task to design efficient Au/Ti-containing catalysts for propene epoxidation with...
[EN] Different bi-functional materials (Pd(Au)@TS-1) based on metallic nanoparticles supported onto ...
Direct epoxidation of propylene (C3H6) with oxygen (O-2) and hydrogen (H-2) over gold catalysts is a...
The conversion of propylene to propylene epoxide (PO) is a reaction of great industrial importance, ...
Propylene oxide (PO) is one of the most synthesized chemicals because of its use in the production o...
Nano gold particles supported on titanium silicalite-1 catalysts (Au/TS-1) have shown high propylene...
A single-step, direct catalytic partial oxidation of propylene to propylene oxide (PO) via co-feedin...
A nanostructured Au/TiO2@SBA-15 catalyst has been prepared and applied in propylene epoxidation with...
The nature of gold active sites on Au–Ti catalysts dictates the reactivity and selectivity during pr...
For direct propene epoxidation with H2/O2, TS-1 with blocked micropores (TS-1-B) is recognized as an...
Designing a stable and selective catalyst with high H2 utilisation is of pivotal importance for the ...
Gold clusters supported on titanium silicalite-1 (hereafter denoted as Au/TS-1) with high gold loadi...
Gradually emerging environmental concerns have triggered the development of highly efficient catalys...
A novel catalyst consisting of gold nanoparticles supported on an uncalcined (with template in) tita...
Au/TS-1 catalysts prepared by deposition–precipitation method are very promising for direct propylen...
It is a challenging task to design efficient Au/Ti-containing catalysts for propene epoxidation with...
[EN] Different bi-functional materials (Pd(Au)@TS-1) based on metallic nanoparticles supported onto ...
Direct epoxidation of propylene (C3H6) with oxygen (O-2) and hydrogen (H-2) over gold catalysts is a...
The conversion of propylene to propylene epoxide (PO) is a reaction of great industrial importance, ...
Propylene oxide (PO) is one of the most synthesized chemicals because of its use in the production o...
Nano gold particles supported on titanium silicalite-1 catalysts (Au/TS-1) have shown high propylene...
A single-step, direct catalytic partial oxidation of propylene to propylene oxide (PO) via co-feedin...
A nanostructured Au/TiO2@SBA-15 catalyst has been prepared and applied in propylene epoxidation with...
The nature of gold active sites on Au–Ti catalysts dictates the reactivity and selectivity during pr...
For direct propene epoxidation with H2/O2, TS-1 with blocked micropores (TS-1-B) is recognized as an...
Designing a stable and selective catalyst with high H2 utilisation is of pivotal importance for the ...
Gold clusters supported on titanium silicalite-1 (hereafter denoted as Au/TS-1) with high gold loadi...