Add to ORKGIn this study, we demonstrate how materials science can be combined with the established methods of organic chemistry to find mechanistic bottlenecks and redesign heterogeneous catalysts for improved performance. By using solid-state NMR, infrared spectroscopy, surface and kinetic analysis, we prove the existence of a substrate inhibition in the aldol condensation catalyzed by heterogeneous amines. We show that modifying the structure of the supported amines according to the proposed mechanism dramatically enhances the activity of the heterogeneous catalyst. We also provide evidence that the reaction benefits significantly from the surface chemistry of the silica support, which plays the role of a co-catalyst, giving activities up to two or...
Several families of catalysts characterized by different types of acid and base sites were developed...
The kinetic and mechanistic understanding of cooperatively catalyzed aldol and nitroaldol condensati...
A bifunctional heterogeneous catalyst containing two mutually incompatible acidic and basic sites, w...
A highly efficient solid-base organocatalyst for the gas-phase aldol self-condensation of n-butanal ...
During the past two decades, new insights have driven the development and optimization of aminated m...
tAminated silica materials are known to efficiently catalyse aldol condensations, especially when si...
Intramolecular cooperativity in heterogeneous organocatalysts is investigated using alkanolamine-fun...
The development of a performant aminated catalyst for aldol condensations requires the combined tuni...
A full mechanistic investigation is proposed for the industrially important cross-aldol condensation...
Aldol condensation is an important C-C bond formation reaction in chemical synthesis that finds vers...
The reusability of methylaminopropyl active sites grafted on mesoporous amorphous silica, either wit...
Various organocatalysts are successfully heterogenised to robust inorganic frameworks, such as mesop...
Molecular dynamics simulations are performed to investigate the cooperatively catalyzed aldol conden...
Free silanol groups are known to promote the activity of aminated silica. In this work the effect of...
Catalysts, heterogeneous, homogeneous, and enzymatic, are comprised of nanometer-sized inorganic and...
Several families of catalysts characterized by different types of acid and base sites were developed...
The kinetic and mechanistic understanding of cooperatively catalyzed aldol and nitroaldol condensati...
A bifunctional heterogeneous catalyst containing two mutually incompatible acidic and basic sites, w...
A highly efficient solid-base organocatalyst for the gas-phase aldol self-condensation of n-butanal ...
During the past two decades, new insights have driven the development and optimization of aminated m...
tAminated silica materials are known to efficiently catalyse aldol condensations, especially when si...
Intramolecular cooperativity in heterogeneous organocatalysts is investigated using alkanolamine-fun...
The development of a performant aminated catalyst for aldol condensations requires the combined tuni...
A full mechanistic investigation is proposed for the industrially important cross-aldol condensation...
Aldol condensation is an important C-C bond formation reaction in chemical synthesis that finds vers...
The reusability of methylaminopropyl active sites grafted on mesoporous amorphous silica, either wit...
Various organocatalysts are successfully heterogenised to robust inorganic frameworks, such as mesop...
Molecular dynamics simulations are performed to investigate the cooperatively catalyzed aldol conden...
Free silanol groups are known to promote the activity of aminated silica. In this work the effect of...
Catalysts, heterogeneous, homogeneous, and enzymatic, are comprised of nanometer-sized inorganic and...
Several families of catalysts characterized by different types of acid and base sites were developed...
The kinetic and mechanistic understanding of cooperatively catalyzed aldol and nitroaldol condensati...
A bifunctional heterogeneous catalyst containing two mutually incompatible acidic and basic sites, w...