@Article{JAMS-4-49, author = {Tang , Chun-MeiWang , HuiZhu , Wei-HuaLiu , Ming-YiZhang , Ai-MeiGong , Jiang-FengZou , Hua and Guo , Wei}, title = {Density Functional Study on the Structural, Frontier Orbital, Electronic, and Magnetic Properties of the Transitional Metal Clusters $Pd_5(CO)_n$ $(n=1$ to $6)$}, journal = {Journal of Atomic and Molecular Sciences}, year = {2013}, volume = {4}, number = {1}, pages = {49--58}, abstract = {
The generalized gradient approximation based on density functional theory is used to analyze the structural, electronic, and magnetic properties of the transition metal clusters $Pd_5(CO)_n$ $(n=1$ to $6).$ For $Pd_5CO,$ the most stable isomer is the singlet state structure with $C$ atom adsorbed on the hollow site in the form of $CO$ molecule, as same as the conclusion reported by Zanti et al (Eur. J. Inorg. Chem. 2009, 3904). In the most stable isomers of $Pd_5(CO)_2$ and $Pd_5(CO)_3,$ the first $CO$ molecule is adsorbed on the hollow site, while the second and the third $CO$ molecules are adsorbed on the bridge sites, whereas, for the most stable $Pd_5(CO)_n$ $(n=4,5,6),$ all $CO$ molecules are adsorbed on the bridge sites. It is known from the adsorption energy that $Pd_5(CO)_2$ should be the most possible adsorption product. The energy gap indicates that $Pd_5(CO)_n$ $(n=1$ to $6)$ have the enhanced dynamical stability compared to $Pd_5$, and $Pd_5(CO)_3$ should be most dynamically stable of all. The chemisorptions of $CO$ molecules onto the $Pd_5$ cluster are non-dissociative and the strength of $C-O$ bond becomes weaker while more $CO$ molecules are adsorbed. Along with the increase of the $CO$ molecules in $Pd_5(CO)_n$ $(n=1$ to $6),$ the ability for detaching electrons is weakened and that for obtaining electrons is improved. The magnetic moment of $Pd_5$ is $2μ_B,$ however, $Pd_5(CO)_n$ $(n=1$ to $6)$ have no magnetic moment.
}, issn = {2079-7346}, doi = {https://doi.org/10.4208/jams.031112.042212a}, url = {http://global-sci.org/intro/article_detail/jams/8221.html} }