Ryuta Takegami scite author profile

A molecular beam of europium-cyclooctatetraene sandwich nanowires Eu(n)()(COT)(m)() was produced by a laser vaporization synthesis method. The formation mechanism of the nanowires was quantitatively revealed by photoelectron and photoionization spectroscopies of the Eu-COT species, together with supporting theoretical calculations. From these results, it is confirmed that growth processes extending the length of Eu-COT nanowires involve a series of elementary reactions in which efficient charge transfer occurs at the terminal reaction sites. In every elementary step, the reaction proceeds between one reactant having low ionization energy and the other reactant having high electron affinity, probably via a "harpoon" mechanism.

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Ionization energies and electron distributions of one-end open sandwich clusters: Eun(C8H8)n (n=1–4)

Takegami

Hosoya

Suzumura

et al. 2005

Chemical Physics Letters

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Geometric and Electronic Structures of Multiple-Decker One-End Open Sandwich Clusters: Eu_n(C₈H₈)_n^- (n = 1−4)

et al. 2005

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We have measured the photoelectron spectra of the multiple-decker 1:1 sandwich clusters of Eu(n)(COT)n- (n = 1-4; COT = 1,3,5,7-cyclooctatetraene), synthesized in the gas phase, and studied theoretically the bonding scheme, charge distribution, valence orbital energies, and photodetachment energies. We calculated the ground electronic state X- and the first excited electronic state A-, both of which have strong ionic bonding and a characteristic charge distribution. Moreover, we found that the valence orbital energies of Eu (6s) and COT (L delta) depend strongly on cluster size and their positions in the clusters. With the calculated vertical detachment energies for these valence orbitals, we assigned the peaks in the experimental photoelectron spectra and analyzed the origin of their interesting behavior by employing simple point charge models. From these analyses, it became clear that the characteristic behavior of the spectra is due to the strong ionic bonding and the charge distribution. In addition, using the point charge models, we estimated the vertical detachment energies of the one-dimensional polymer [Eu(COT)]infinity-.

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Ryuta Takegami

Lanthanide Organometallic Sandwich Nanowires: Formation Mechanism

Ionization energies and electron distributions of one-end open sandwich clusters: Eun(C8H8)n (n=1–4)

Geometric and Electronic Structures of Multiple-Decker One-End Open Sandwich Clusters: Eu_n(C₈H₈)_n^- (n = 1−4)

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Ryuta Takegami

Lanthanide Organometallic Sandwich Nanowires: Formation Mechanism

Ionization energies and electron distributions of one-end open sandwich clusters: Eun(C8H8)n (n=1–4)

Geometric and Electronic Structures of Multiple-Decker One-End Open Sandwich Clusters: Eun(C8H8)n- (n = 1−4)

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Resources

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Geometric and Electronic Structures of Multiple-Decker One-End Open Sandwich Clusters: Eu_n(C₈H₈)_n^- (n = 1−4)