TY - JOUR
T1 - The nature of metallophilic interactions in closed-shell d8-d8 metal complexes
AU - de Azevedo Santos, Lucas
AU - Wagner, Timon
AU - Visscher, Klaas
AU - Nitsch, Jörn
AU - Bickelhaupt, F. Matthias
AU - Fonseca Guerra, Célia
N1 - Publisher Copyright:
© 2024 The Royal Society of Chemistry.
PY - 2024/8/21
Y1 - 2024/8/21
N2 - We have quantum chemically analyzed the closed-shell d8-d8 metallophilic interaction in dimers of square planar [M(CO)2X2] complexes (M = Ni, Pd, Pt; X = Cl, Br, I) using dispersion-corrected density functional theory at ZORA-BLYP-D3(BJ)/TZ2P level of theory. Our purpose is to reveal the nature of the [X2(CO)2M]⋯[M(CO)2X2] bonding mechanism by analyzing trends upon variations in M and X. Our analyses reveal that the formation of the [M(CO)2X2]2 dimers is favored by an increasingly stabilizing electrostatic interaction when the M increases in size and by more stabilizing dispersion interactions promoted by the larger X. In addition, there is an overlooked covalent component stemming from metal-metal and ligand-ligand donor-acceptor interactions. Thus, at variance with the currently accepted picture, the d8-d8 metallophilicity is attractive, and the formation of [M(CO)2X2]2 dimers is not a purely dispersion-driven phenomenon.
AB - We have quantum chemically analyzed the closed-shell d8-d8 metallophilic interaction in dimers of square planar [M(CO)2X2] complexes (M = Ni, Pd, Pt; X = Cl, Br, I) using dispersion-corrected density functional theory at ZORA-BLYP-D3(BJ)/TZ2P level of theory. Our purpose is to reveal the nature of the [X2(CO)2M]⋯[M(CO)2X2] bonding mechanism by analyzing trends upon variations in M and X. Our analyses reveal that the formation of the [M(CO)2X2]2 dimers is favored by an increasingly stabilizing electrostatic interaction when the M increases in size and by more stabilizing dispersion interactions promoted by the larger X. In addition, there is an overlooked covalent component stemming from metal-metal and ligand-ligand donor-acceptor interactions. Thus, at variance with the currently accepted picture, the d8-d8 metallophilicity is attractive, and the formation of [M(CO)2X2]2 dimers is not a purely dispersion-driven phenomenon.
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U2 - 10.1039/d4cp00250d
DO - 10.1039/d4cp00250d
M3 - Article
C2 - 39046093
AN - SCOPUS:85199678469
SN - 1463-9076
VL - 26
SP - 20928
EP - 20936
JO - Physical Chemistry Chemical Physics
JF - Physical Chemistry Chemical Physics
IS - 31
ER -