首页> 外文会议>Proceedings vol.2004-18; International Symposium on Electrode Processes; 2004; Honolulu,HI(US) >INTERFACIAL ELECTRON-TRANSFER AND LIGAND-DISSOCIATION CHARACTERISTICS OF LAYER-BY-LAYER NANOARCHITECTURES CONSTRUCTED FROM RUTHENIUM CLUSTER MOLECULES

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INTERFACIAL ELECTRON-TRANSFER AND LIGAND-DISSOCIATION CHARACTERISTICS OF LAYER-BY-LAYER NANOARCHITECTURES CONSTRUCTED FROM RUTHENIUM CLUSTER MOLECULES

机译：R团簇分子构成的逐层纳米结构的界面电子转移和配体解离特性

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Interfacial electron-transfer properties and CO-dissociation reactions at redox-active multilayers which were prepared from trinuclear ruthenium cluster molecules have been examined by cyclic voltammetry. The series of multilayers (up to five layers) assembled on gold electrodes show a single-step, reversible, multi-electron redox processes whose redox potentials are finely tuned by the number of Ru_3 components involved in the layers and are also affected by the nature of electrolyte anions. Electrochemical oxidation of the surface-confined CO-terminated multilayers (0.1 M HC1O_4 aq., 298 K) induces dissociation of CO from the top layer, resulting in the change of the cyclic voltammograms. The redox-induced CO-dissociation reaction for each of the multilayers obeys the first-order kinetics, in which the rate constants range in the order 10~(-2) s~(-1) (298 K).

机译：用循环伏安法研究了由三核钌簇分子制备的氧化还原活性多层膜的界面电子转移性质和CO离解反应。组装在金电极上的一系列多层膜（最多五层）显示出单步可逆的多电子氧化还原过程，其氧化还原电位可通过各层中所含Ru_3组分的数量进行微调，并且还受性质的影响电解质阴离子。表面受限的以CO端接的多层膜（0.1 M HC1O_4 aq。，298 K）的电化学氧化引起CO从顶层解离，导致循环伏安图的变化。每个多层的氧化还原诱导的CO离解反应都遵循一级动力学，其中速率常数的范围为10〜（-2）s〜（-1）（298 K）。

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《Proceedings vol.2004-18; International Symposium on Electrode Processes; 2004; Honolulu,HI(US) 》|2004年|P.116-131|共16页
会议地点 HonoluluHI(US)
作者
Takayuki Michi; Masaaki Abe; Shen Ye; Masatoshi Osawa; Toshihiro Kondo; Kohei Uosaki; Yoichi Sasaki;
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作者单位

Division of Chemistry, Graduate School of Science, Hokkaido University, Kita-ku, Sapporo 060-0810, Japan;

Catalysis Research Center, Hokkaido University, Kita-ku, Sapporo 060-0811, Japan;

PRESTO, Japan Science and Technology Corporation (JST);

CREST, Japan;

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5. Hydrogénation of phosphido bridged ruthenium clusters. A view of P—C bond activation and cleavage in the coordinatively unsaturated molecule Ru3(CO)9(μ2-PPh2)(μ2-H): conversion of μ2-PPh2 to μ3-PPh [O] . Shane A. Maclaughlin, Arthur J. Carty, Nicholas J. Taylor 1982

机译：磷脂桥接钌簇的氢氮。在协调不饱和分子Ru3（CO）9（μ2-PPH2）（μ2-H）中的p-C键活化和切割的视图：μ2-pPH2至μ3-pph的转化率

INTERFACIAL ELECTRON-TRANSFER AND LIGAND-DISSOCIATION CHARACTERISTICS OF LAYER-BY-LAYER NANOARCHITECTURES CONSTRUCTED FROM RUTHENIUM CLUSTER MOLECULES

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