2001
DOI: 10.1016/s0039-6028(00)00939-0
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Adsorption and decomposition of nickelocene on Ag(100): a high-resolution electron energy loss spectroscopy and temperature programmed desorption study

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Cited by 21 publications
(15 citation statements)
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“…Below the decomposition temperature of the cyclopentadienyl precursors of Cp 2 Ni and Cp 2 Fe, it is reported that the precursor is adsorbed on the metal substrate and undergo decomposition to cyclopentadiene under electron or photon irradiation [9][10][11]. The decomposed species react with the substrate and form the moderate amount of the carbidic carbon of (EtCp)-Mn compared to the case below 300 o C. Moreover, it is reported that the decomposition of the absorbed Cp ligands on Ag substrate resulted in the formation of carbon atoms [12]. Meanwhile, above the decomposition temperature of 400 o C, the part of the Mn precursor thermally decomposes to Mn atoms and reactive (EtCp) ligands.…”
Section: Resultsmentioning
confidence: 99%
“…Below the decomposition temperature of the cyclopentadienyl precursors of Cp 2 Ni and Cp 2 Fe, it is reported that the precursor is adsorbed on the metal substrate and undergo decomposition to cyclopentadiene under electron or photon irradiation [9][10][11]. The decomposed species react with the substrate and form the moderate amount of the carbidic carbon of (EtCp)-Mn compared to the case below 300 o C. Moreover, it is reported that the decomposition of the absorbed Cp ligands on Ag substrate resulted in the formation of carbon atoms [12]. Meanwhile, above the decomposition temperature of 400 o C, the part of the Mn precursor thermally decomposes to Mn atoms and reactive (EtCp) ligands.…”
Section: Resultsmentioning
confidence: 99%
“…This preferential orientation is with the molecular axis canted away from the surface normal, so that the light polarization dependent photoemission effects are small or, only a small fraction of cobaltocene molecules are oriented with the molecular axis along the surface normal. A canting of the molecular axis away from the surface normal would make the bonding orientation adopted by molecular cobaltocene, resemble that of nickelocene on Ag(1 0 0) at some coverages [26][27]. So that cobaltocene adopting a somewhat canted molecular adsorption confi guration need not be considered surprising even though most studies place the metallocene molecular axis along the surface normal of Ag(1 0 0) [15], [21][22] and graphite [16] and [18].…”
Section: Cobaltocene Adsorption On Cu(1 1 1)mentioning
confidence: 99%
“…When comparing initial cobaltocene adsorption on graphite [32] and Cu(1 1 1) (the work presented here) with other metallocenes, it seems fairly clear that cobaltocene is far less stable as a molecule on surfaces than ferrocene (Z − 1) [13][14][15][16][17][18][19][20][21][22] or nickelocene (Z + 1) [20], [23][24][25][26][27]. The big difference among these three metallocenes appears to be that the "nineteen electron" cobaltocene has a single unpaired electron resulting in a low ionization potential [32] of 5.56 eV [37] when compared to ferrocene (6.88 eV [37]) and nickelocene (6.51 eV [37]).…”
Section: The Stability Of Adsorbed Cobaltocenementioning
confidence: 99%
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