Correlation between Spectroscopic and Mechanical Properties of Gold Nanocrystals under Pressure

The effects of nonhydrostatic pressure on the morphology and stability of gold nanorods (AuNRs) and nanospheres (AuNSs) in 4:1 methanol-ethanol mixtures were studied by optical absorption spectroscopy and transmission electron microscopy at pressures of up to 23 and 30 GPa, respectively. Solvent solidification and associated nonhydrostatic stresses were found to have a negligible effect on the shape and size of AuNSs. On the contrary, while AuNRs maintained their initial morphology in the hydrostatic range, the uniaxial stress component induced under nonhydrostatic conditions had a shearing effect on the AuNRs, breaking them into smaller particles. Interestingly, colloidal stability was maintained in all cases, and the particles showed no sign of aggregation, despite the severe nonhydrostatic conditions to which both AuNR and AuNS colloids were subjected.

Automated summary

The effects of nonhydrostatic pressure on the morphology and stability of gold nanorods and nanospheres were studied. It was found that solvent solidification had a negligible effect on nanospheres, while nanorods were broken into smaller particles under nonhydrostatic conditions. However, colloidal stability was maintained in all cases.