Abstract

Nanoparticle (NP) clusters are attractive for many applications, but controllable and regioselective assembly of clusters remains challenging. This communication reports a strategy to precisely assemble Ag nanoplates (NP-<b>A</b>s) and Au nanospheres (NP-<b>B</b>s) grafted with copolymer ligands into defined <b>AB</b>_<i>x</i> clusters with controlled coordination number (<i>x</i>) and orientation of the NPs. The directional bonding of shaped NPs relies on the stoichiometric reaction of complementary reactive groups on copolymer ligands. The <i>x</i> value of NP clusters can be tuned from 1 to 4 by varying the number ratio of reactive groups on single NP-<b>B</b>s to NP-<b>A</b>s. The regioselective bonding of nanospheres to the edge or face of a central nanoplate is governed by the steric hindrance of copolymeric ligands on the nanoplate. The clusters exhibit distinctive plasmonic properties that are dependent on the bonding modes of NPs. This study paves a route to fabricating nanostructures with high precision and complexity for applications in plasmonics, catalysis, and sensing.