Nanocluster growth "graft-onto": effects on geometric structures and optical properties.

Atomically precise engineering on the nanocluster surface remains highly desirable for the fundamental understanding of how surface structures of a nanocluster contribute to its overall properties. In this paper, the concept of "graft-onto" has been exploited to facilitate nanocluster growth on surface structures. Specifically, the Ag(DPPM)Cl complex is used for re-constructing the surface structure of (SR)(PPh) ( , SR = 1-adamantanethiolate) and producing a size-growth nanocluster - (SR)(DPPM)Cl ( ). The grafting effect of Ag(DPPM)Cl induces both direct changes on the surface structure (, size growth, structural transformation, and surface rotation) and indirect changes on the kernel structure (from a fcc configuration to an icosahedral configuration). Remarkable differences have been observed by comparing optical properties between and . Significantly, exhibits high photo-luminescent intensity with a quantum yield of 29.3%, which is six times that of the . Overall, this work presents a new approach (, graft-onto) for the precise dictation of nanocluster surface structures at the atomic level.