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Experimental and theoretical studies on different ionic states of ethylthio CH3CH2S radical (2000)

Ge, Maofa ; Wang, Jing ; Zhu, Xinjiang ; [et al.]

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 113 (2000), S. 1866-1869

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: A continuous flowing ethylthio CH3CH2S radical is produced in situ by pyrolysis of CH3CH2SSCH2CH3 at 242(±0.5) °C in a double heater inlet system on a double chamber UPS machine-II which was built specifically to detect transient species. By combining HeI photoelectron spectroscopic (PES) measurement with ab initio GAUSSIAN2 (G2) calculations on different ionic states of the CH3CH2S radical, we have concluded that the CH3CH2S radical has Cs symmetry and the ground state of the CH3CH2S+ cation is the 3A″ state which comes from removal of an electron of the SHOMO 13a′ orbital for the CH3CH2S radical. The PES peak at the lowest ionization energy 9.08 eV with vibrational structure 700±60 cm−1 and corresponding with the G2 computed ionization energy 9.123 eV is designated to the 3A″ ionic state. The removal of an electron of the HOMO 4a″ for the CH3CH2S radical leads to a very sharp peak at 10.31 eV, corresponding to ionization CH3CH2S+ (1A′)←CH3CH2S(X˜ 2A″) and the G2 computed ionization energy 10.322 eV. The 1A″ ionic state caused by removal of the electron of the SHOMO 13a′ corresponds to the PES peak at 10.50 eV and the G2 computed ionization energy 10.448 eV. The assignment of the PES bands of the CH3CH2S radical in the high ionization energy region (〉12.00 eV) is also supported by the G2 calculation. Both PES experiment and G2 calculations provide an evidence of existence of different ionic states for the CH3CH2S radical for the first time. © 2000 American Institute of Physics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.481990

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Density functional study of structural and electronic properties of bimetallic silver–gold clusters: Comparison with pure gold and silver clusters (2002)

Bonacic-Koutecký, Vlasta ; Burda, Jaroslav ; Mitric, Roland ; [et al.]

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 117 (2002), S. 3120-3131

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: Bimetallic silver–gold clusters offer an excellent opportunity to study changes in metallic versus "ionic" properties involving charge transfer as a function of the size and the composition, particularly when compared to pure silver and gold clusters. We have determined structures, ionization potentials, and vertical detachment energies for neutral and charged bimetallic AgmAun [3≤(m+n)≤5] clusters. Calculated VDE values compare well with available experimental data. In the stable structures of these clusters Au atoms assume positions which favor the charge transfer from Ag atoms. Heteronuclear bonding is usually preferred to homonuclear bonding in clusters with equal numbers of hetero atoms. In fact, stable structures of neutral Ag2Au2, Ag3Au3, and Ag4Au4 clusters are characterized by the maximum number of hetero bonds and peripheral positions of Au atoms. Bimetallic tetramer as well as hexamer are planar and have common structural properties with corresponding one-component systems, while Ag4Au4 and Ag8 have 3D forms in contrast to Au8 which assumes planar structure. At the density functional level of theory we have shown that this is due to participation of d electrons in bonding of pure Aun clusters while s electrons dominate bonding in pure Agm as well as in bimetallic clusters. In fact, Aun clusters remain planar for larger sizes than Agm and AgnAun clusters. Segregation between two components in bimetallic systems is not favorable, as shown in the example of Ag5Au5 cluster. We have found that the structures of bimetallic clusters with 20 atoms Ag10Au10 and Ag12Au8 are characterized by negatively charged Au subunits embedded in Ag environment. In the latter case, the shape of Au8 is related to a pentagonal bipyramid capped by one atom and contains three exposed negatively charged Au atoms. They might be suitable for activating reactions relevant to catalysis. According to our findings the charge transfer in bimetallic clusters is responsible for formation of negatively charged gold subunits which are expected to be reactive, a situation similar to that of gold clusters supported on metal oxides. © 2002 American Institute of Physics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.1492800

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