posted on 2023-07-18, 20:50authored byVikas Tiwari, Tarak Karmakar
Monolayer-protected
atomically precise nanoclusters (MPCs)
are
an important class of molecules due to their unique structural features
and diverse applications, including bioimaging, sensors, and drug
carriers. Understanding the atomistic and dynamical details of their
self-assembly process is crucial for designing system-specific applications.
Here, we applied molecular dynamics and on-the-fly probability-based
enhanced sampling simulations to study the aggregation of Au25(pMBA)18 MPCs in aqueous and methanol
solutions. The MPCs interact via both hydrogen bonds and π-stacks
between the aromatic ligands to form stable dimers, oligomers, and
crystals. The dimerization free energy profiles reveal a pivotal role
of the ligand charged state and solvent mediating the molecular aggregation.
Furthermore, MPCs’ ligands exhibit suppressed conformational
flexibility in the solid phase due to facile intercluster hydrogen
bonds and π-stacks. Our work provides unprecedented molecular-level
dynamical details of the aggregation process and conformational dynamics
of MPCs ligands in solution and crystalline phases.