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W4313649908 startingPage "700" @default.
W4313649908 abstract "The carboxylate-ligated In37P20 is an intriguing magic-sized cluster (MSC) whose high stability (i.e., magic size) stems from a delicate balance between the energy cost and gain associated with its partially disordered, In-rich core and its passivation by the bidentate ligands. In order to use such MSCs as intermediates for non-classical nucleation and growth of quantum dots, it is essential to control the reactivity (or stability) of MSCs by disrupting the energetic balance. Here, using ab initio molecular dynamics simulations, we reveal the destabilization process of the InP MSC induced by a modification of the surface ligand network beyond a critical limit. When three In(O2CR)3 subunits are released from the cluster at high temperatures, the remaining In34P20 core suddenly loses its stability and undergoes a structural transformation through In–P bond breaking and rearrangement. The net effect of the isomerization is an In–P bond exchange between a pair of In atoms, thereby leading to a rupture on the cluster surface. We elucidate the mechanism for the MSC instability by studying the intricate interactions between the surface ligand network and the inorganic core. Finally, we discuss the similarity and fundamental differences in the cluster isomerization of group III–V InP and group II–VI CdS MSCs." @default.
W4313649908 created "2023-01-07" @default.
W4313649908 creator A5019564898 @default.
W4313649908 creator A5076447407 @default.
W4313649908 date "2023-01-06" @default.
W4313649908 modified "2023-10-01" @default.
W4313649908 title "Enhanced Reactivity of Magic-Sized Inorganic Clusters by Engineering the Surface Ligand Networks" @default.
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W4313649908 doi "https://doi.org/10.1021/acs.chemmater.2c03394" @default.
W4313649908 hasPublicationYear "2023" @default.
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