2 research outputs found
Collision-Induced Fission of Oblate Gold Superatom in [Au<sub>9</sub>(PPh<sub>3</sub>)<sub>8</sub>]<sup>3+</sup>: Deformation-Mediated Mechanism
Collision-induced dissociation (CID) patterns of the
phosphine-protected
Au-based clusters [PdAu8(PPh3)8]2+ (PdAu8) and [Au9(PPh3)8]3+ (Au9), featuring crown-shaped
M@Au8 (M = Pd, Au) cores, were investigated. For PdAu8, ordinary sequential PPh3 losses (PdAu8 → [PdAu8(PPh3)m]2+ + (8 – m)PPh3 (m = 7, 6, 5)) were observed. In contrast, Au9 underwent cluster-core fission (Au9 →
[Au6(PPh3)6]2+ (Au6) + [Au3(PPh3)2]+ (Au3)) upon sufficiently high energy collision, associated
with splitting the number of valence electrons in the superatomic
orbitals from 6e (Au9) into 4e (Au6) and
2e (Au3). Density functional theory calculations revealed
oblate and prolate cores of Au9 and Au6 with
semiclosed superatomic electron configurations of (1S)2(1Px)2(1Py)2 and (1S)2(1Pz)2, respectively. This result indicated a significant
deformation of the cluster-core motif during the CID process. We attribute
the clear difference between PdAu8 and Au9 to the softer Au–Au bond in Au9 and propose
that the collision-induced structural deformation plays a critical
role in the fission
Collision-Induced Fission of Oblate Gold Superatom in [Au<sub>9</sub>(PPh<sub>3</sub>)<sub>8</sub>]<sup>3+</sup>: Deformation-Mediated Mechanism
Collision-induced dissociation (CID) patterns of the
phosphine-protected
Au-based clusters [PdAu8(PPh3)8]2+ (PdAu8) and [Au9(PPh3)8]3+ (Au9), featuring crown-shaped
M@Au8 (M = Pd, Au) cores, were investigated. For PdAu8, ordinary sequential PPh3 losses (PdAu8 → [PdAu8(PPh3)m]2+ + (8 – m)PPh3 (m = 7, 6, 5)) were observed. In contrast, Au9 underwent cluster-core fission (Au9 →
[Au6(PPh3)6]2+ (Au6) + [Au3(PPh3)2]+ (Au3)) upon sufficiently high energy collision, associated
with splitting the number of valence electrons in the superatomic
orbitals from 6e (Au9) into 4e (Au6) and
2e (Au3). Density functional theory calculations revealed
oblate and prolate cores of Au9 and Au6 with
semiclosed superatomic electron configurations of (1S)2(1Px)2(1Py)2 and (1S)2(1Pz)2, respectively. This result indicated a significant
deformation of the cluster-core motif during the CID process. We attribute
the clear difference between PdAu8 and Au9 to the softer Au–Au bond in Au9 and propose
that the collision-induced structural deformation plays a critical
role in the fission