Add to ORKGThe rational design of catalyst materials is of great industrial significance, yet there is a fundamental lack of knowledge in some of the most well-established processes, e.g. formation of supported nanoparticle structures through impregnation. Here, the choice of precursor has a significant influence on the resulting catalytic properties of the end material, yet the chemistry that governs the transformation from defined molecular systems to dispersed nanoparticles is often overlooked. A spectroscopic method for advanced in situ characterization is employed to capture the formation of PdO nanoparticles supported on γ-Al2O3 from two alternative molecular precursors - Pd(NO3)2 and Pd(NH3)4(OH)2. Time-resolved diffuse reflectance infrared Fou...
The selective catalytic oxidation of NH3 to N2 presents a promising solution for the abatement of un...
Model catalytic studies under ambient conditions require materials with well-defined structures for ...
Catalytic and energetic nanomaterials are analyzed chemically and structurally in atomistic detail. ...
The rational design of catalysts is of great industrial significance, yet there is a fundamental lac...
An in-depth understanding of the fundamental structure of catalysts during operation is indispensabl...
An in-depth understanding of the fundamental structure of catalysts during operation is indispensabl...
The selective catalytic oxidation of NH3 to N2 presents a promising solution for the abatement of un...
Time-resolved in situ, energy-dispersive X-ray absorption spectroscopy and mass spectrometry are use...
Time-resolved in situ, energy-dispersive X-ray absorption spectroscopy and mass spectrometry are use...
Time-resolved in situ energy-dispersive X-ray absorption spectroscopy and mass spectrometry are used...
A detailed comparative study of CH3OH adsorption on two categories of supported Palladium nanopartic...
The selective catalytic oxidation of NH3 to N2 (NH3-SCO) presents a promising solution for abatement...
A detailed comparative study of CH3OH adsorption on two categories of supported Palladium nanopartic...
Methane oxidation over Pd–Pt/Al2O3 model catalysts calcined at three different conditions is investi...
We have studied the influence of oxygen on the structure and morphology of a Pd/Fe3O4 model catalyst...
The selective catalytic oxidation of NH3 to N2 presents a promising solution for the abatement of un...
Model catalytic studies under ambient conditions require materials with well-defined structures for ...
Catalytic and energetic nanomaterials are analyzed chemically and structurally in atomistic detail. ...
The rational design of catalysts is of great industrial significance, yet there is a fundamental lac...
An in-depth understanding of the fundamental structure of catalysts during operation is indispensabl...
An in-depth understanding of the fundamental structure of catalysts during operation is indispensabl...
The selective catalytic oxidation of NH3 to N2 presents a promising solution for the abatement of un...
Time-resolved in situ, energy-dispersive X-ray absorption spectroscopy and mass spectrometry are use...
Time-resolved in situ, energy-dispersive X-ray absorption spectroscopy and mass spectrometry are use...
Time-resolved in situ energy-dispersive X-ray absorption spectroscopy and mass spectrometry are used...
A detailed comparative study of CH3OH adsorption on two categories of supported Palladium nanopartic...
The selective catalytic oxidation of NH3 to N2 (NH3-SCO) presents a promising solution for abatement...
A detailed comparative study of CH3OH adsorption on two categories of supported Palladium nanopartic...
Methane oxidation over Pd–Pt/Al2O3 model catalysts calcined at three different conditions is investi...
We have studied the influence of oxygen on the structure and morphology of a Pd/Fe3O4 model catalyst...
The selective catalytic oxidation of NH3 to N2 presents a promising solution for the abatement of un...
Model catalytic studies under ambient conditions require materials with well-defined structures for ...
Catalytic and energetic nanomaterials are analyzed chemically and structurally in atomistic detail. ...