Water-soluble Au25(Capt)18 nanoclusters: synthesis, thermal stability, and optical properties.

This work was motivated by the unsatisfactory stability of Au(25)(SG)(18) in solution under thermal conditions (e.g. 70-90 °C for DNA melting). Thus, we searched for a better, water-soluble thiol ligand. Herein, we report a one-pot synthesis and investigation of the stability and optical properties of captopril (abbreviated Capt)-protected Au(25)(Capt)(18) nanoclusters. The Au(25)(Capt)(18) (anionic, counterion: Na(+)) nanoclusters were formed via size focusing under ambient conditions. Significantly, Au(25)(Capt)(18) nanoclusters exhibit largely improved thermal stability compared to the glutathione (HSG) capped Au(25)(SG)(18). Both Au(25)(Capt)(18) and Au(25)(SG)(18) nanoclusters show fluorescence centered at ∼700 nm. The chiral ligands (Capt, SG, as well as chirally modified phenylethanethiol (PET*)) give rise to distinct chiroptical features. The high thermal stability and distinct optical properties of Au(25)(Capt)(18) nanoclusters render this material quite promising for biological applications.