Add to ORKGProperties of small metal nanoclusters rely on the exact arrangement of a few atoms. Minor structural changes can rapidly destabilize them, leading to disintegration. Here, we evaluate the energetic factors accounting for the stabilization and integrity of thiolate-capped gold nanoclusters (AuNCs). We found that the core-cohesive and shell-binding energies regulate the disintegration process on a solid substrate by investigating the different energetic contributions, as shown here in a combined experimental and theoretical study. As the AuNC size increases, the core-cohesive energy and shell stability (imposed by S-Au and hydrocarbon chain interactions) counterbalance the AuNC− substrate interaction and slow down the AuNC disintegration. Th...
To explore the electronic and catalytic properties of nanoclusters, here we report an aromatic-thiol...
Thiolate protected gold nanoclusters (NC) Aun(SR)m are a remarkable group of atomically precise stru...
Precise control of the growth of thiolate-protected gold nanoclusters is a prerequisite for their ap...
Properties of small metal nanoclusters rely on the exact arrangement of a few atoms. Minor structura...
Properties of small metal nanoclusters rely on the exact arrangement of a few atoms. Minor structura...
Limited stability of metal nanoparticles hinders their long-term uses and applications. For metal na...
Despite the great advances in synthesis and structural determination of atomically precise, thiolate...
Gold nanomolecules are atomically monodisperse nano-particles having a precise number of gold atoms ...
Gold nanomolecules are atomically monodisperse nano-particles having a precise number of gold atoms ...
Ligand-stabilized, atomically precise gold nanoclusters with a metal core of a uniform size of just ...
The superatom model for nanoparticle structure is shown to be inadequate for the prediction of the t...
The superatom model for nanoparticle structure is shown to be inadequate for the prediction of the t...
Thiolate-protected gold nanoclusters have attracted considerable attention as building blocks for ne...
Gold nanoclusters have been shown to be a most promising nanomaterial with a wide range of potential...
Unlike bulk materials, the physicochemical properties of nano-sized metal clusters can be strongly d...
To explore the electronic and catalytic properties of nanoclusters, here we report an aromatic-thiol...
Thiolate protected gold nanoclusters (NC) Aun(SR)m are a remarkable group of atomically precise stru...
Precise control of the growth of thiolate-protected gold nanoclusters is a prerequisite for their ap...
Properties of small metal nanoclusters rely on the exact arrangement of a few atoms. Minor structura...
Properties of small metal nanoclusters rely on the exact arrangement of a few atoms. Minor structura...
Limited stability of metal nanoparticles hinders their long-term uses and applications. For metal na...
Despite the great advances in synthesis and structural determination of atomically precise, thiolate...
Gold nanomolecules are atomically monodisperse nano-particles having a precise number of gold atoms ...
Gold nanomolecules are atomically monodisperse nano-particles having a precise number of gold atoms ...
Ligand-stabilized, atomically precise gold nanoclusters with a metal core of a uniform size of just ...
The superatom model for nanoparticle structure is shown to be inadequate for the prediction of the t...
The superatom model for nanoparticle structure is shown to be inadequate for the prediction of the t...
Thiolate-protected gold nanoclusters have attracted considerable attention as building blocks for ne...
Gold nanoclusters have been shown to be a most promising nanomaterial with a wide range of potential...
Unlike bulk materials, the physicochemical properties of nano-sized metal clusters can be strongly d...
To explore the electronic and catalytic properties of nanoclusters, here we report an aromatic-thiol...
Thiolate protected gold nanoclusters (NC) Aun(SR)m are a remarkable group of atomically precise stru...
Precise control of the growth of thiolate-protected gold nanoclusters is a prerequisite for their ap...