Nele Veldeman scite author profile

We report on experiments probing the reactivity of neutral Au(n) clusters, n = 9-68, with carbon monoxide. The gold clusters are produced in a pulsed laser vaporization cluster source, operated at room temperature (RT) or at liquid-nitrogen temperature (LNT), pass through a low-pressure reaction cell containing CO gas, and are subsequently laser ionized. The reaction probabilities are determined by recording mass abundance spectra with time-of-flight mass spectrometry. The main observations are a strong temperature dependence and a remarkable size dependence. Upon cooling of the cluster source to LNT, the reactivity increases substantially. At LNT, the reaction probabilities for Au(n) with the first CO molecule are about a factor 10 higher than at RT. Moreover, adsorption of two, three, and even four CO molecules is observed, in contrast to RT clusters which at most adsorb one CO molecule. This temperature dependence is related to the lifetime of the cluster-molecule complexes, being much longer for cold clusters. The observed striking size dependence is similar at both temperatures and is discussed in terms of the electronic structure effects.

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Validation of the MIMOSA-AURORA-IFDM model chain for policy support: Modeling concentrations of elemental carbon in Flanders

Lefebvre

Vercauteren

Schrooten

et al. 2011

Atmospheric Environment

103

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Stability and dissociation pathways of doped Au_nX⁺clusters (X = Y, Er, Nb)

et al. 2008

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Size dependent stabilities, fragmentation pathways and dissociation energies of a series of gas phase cationic doped gold clusters, Au(n)X+ (3 < or = n < or = 20; X = Y, Er and Nb), and pure Au(n)+ clusters were investigated in photofragmentation experiments. Size dependent stability patterns were obtained and the branching between monomer and dimer evaporation was studied. For bare gold, the competing neutral monomer and dimer evaporation channels were found to be in agreement with earlier studies. For doped clusters, monomer evaporation is the most likely fragmentation channel with the exception of Au18Y+ and Au20Y+ for which gold dimer evaporation is also observed. Relations between the evaporative activation energies and both the experimental abundances and the fragment yield were derived based on unimolecular rate constants. The dissociation energies from this analysis show an odd-even staggering and enhanced stabilities for certain cluster sizes, in agreement with simple electronic shell model predictions.

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The Cu₇Sc Cluster is a Stable σ‐Aromatic Seven‐Membered Ring

et al. 2008

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Density functional theory calculations demonstrate that the global minimum of the Cu(7)Sc potential energy surface is a seven-membered ring of copper atoms with scandium in its center, yielding a planar D(7) (h) structure. Nucleus-independent chemical shifts [NICS(1)(zz) and NICS(2)(zz)] show that this cluster has aromatic character, which is consistent with the number of 4s electrons of copper and scandium plus the 3d electrons of scandium satisfying Hückel's rule. According to a canonical MO decomposition of NICS(1)(zz) and NICS(2)(zz), the MOs consisting of the 4s atomic orbitals are mainly responsible for the aromatic behavior of the cluster. The electron localizability indicator (ELI-D) and its canonical MO decomposition (partial ELI-D) suggest that a localized basin is formed in Cu(7)Sc by the copper atoms whereas the two circular localized domains are situated below and above the ring. The planar Cu(7)Sc cluster can thus be considered as a sigma-aromatic species. These findings agree with the phenomenological shell model.

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Carbon Monoxide Adsorption on Silver Doped Gold Clusters

et al. 2011

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Well controlled gas phase experiments of the size and dopant dependent reactivity of gold clusters can shed light on the surprising discovery that nanometer sized gold particles are catalytically active. Most studies that investigate the reactivity of gold clusters in the gas phase focused on charged, small sized clusters. Here, reactivity measurements in a low-pressure reaction cell were performed to investigate carbon monoxide adsorption on neutral bare and silver doped gold clusters (Au(n)Ag(m); n = 10-45; m = 0, 1, 2) at 140 K. The size dependence of the reaction probabilities reflects the role of the electronic shells for the carbon monoxide adsorption, with closed electronic shell systems being the most reactive. In addition, the cluster's reaction probability is reduced upon substitution of gold atoms for silver. Inclusion of a single silver atom causes significant changes in the reactivity only for a few cluster sizes, whereas there is a more general reduction in the reactivity with two silver atoms in the cluster. The experimental observations are qualitatively explained on the basis of a Blyholder model, which includes dopant induced features such as electron transfer from silver to gold, reduced s-d hybrization, and changes in the cluster geometry.

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Mass spectrometric and modeling investigations of bimetallic silver–cobalt clusters

Janssens

Hoof

Veldeman

et al. 2006

International Journal of Mass Spectrometry

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Nele Veldeman

Mass spectrometric stability study of binary MSn clusters (S=Si, Ge, Sn, Pb, and M=Cr, Mn, Cu, Zn)

Stability patterns of transition metal doped silver clusters: Dopant- and size-dependent electron delocalization

Size-Dependent Carbon Monoxide Adsorption on Neutral Gold Clusters

Validation of the MIMOSA-AURORA-IFDM model chain for policy support: Modeling concentrations of elemental carbon in Flanders

Stability and dissociation pathways of doped Au_nX⁺clusters (X = Y, Er, Nb)

The Cu₇Sc Cluster is a Stable σ‐Aromatic Seven‐Membered Ring

Carbon Monoxide Adsorption on Silver Doped Gold Clusters

Mass spectrometric and modeling investigations of bimetallic silver–cobalt clusters

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Nele Veldeman

Mass spectrometric stability study of binary MSn clusters (S=Si, Ge, Sn, Pb, and M=Cr, Mn, Cu, Zn)

Stability patterns of transition metal doped silver clusters: Dopant- and size-dependent electron delocalization

Size-Dependent Carbon Monoxide Adsorption on Neutral Gold Clusters

Validation of the MIMOSA-AURORA-IFDM model chain for policy support: Modeling concentrations of elemental carbon in Flanders

Stability and dissociation pathways of doped AunX+clusters (X = Y, Er, Nb)

The Cu7Sc Cluster is a Stable σ‐Aromatic Seven‐Membered Ring

Carbon Monoxide Adsorption on Silver Doped Gold Clusters

Mass spectrometric and modeling investigations of bimetallic silver–cobalt clusters

Contact Info

Product

Resources

About

Stability and dissociation pathways of doped Au_nX⁺clusters (X = Y, Er, Nb)

The Cu₇Sc Cluster is a Stable σ‐Aromatic Seven‐Membered Ring