Assembly of tetrahedral gold nanoclusters from binary colloidal mixtures

Nicholas B. Schade; Dazhi ``Peter'' Sun; Miranda Holmes-Cerfon; Elizabeth R. Chen; Emily W. Gehrels; Jonathan A. Fan; Oleg Gang; Vinothan N. Manoharan

Assembly of tetrahedral gold nanoclusters from binary colloidal mixtures

ORAL

Abstract

We experimentally investigate the structures that form when colloidal gold nanospheres cluster around smaller spheres. We use nanoparticles coated with complementary DNA sequences to assemble the clusters, and we observe them under electron microscopy. Previous experiments using polystyrene microspheres indicate that a 90\% yield of tetrahedral clusters is possible near a critical diameter ratio; random sphere parking serves as a useful model for understanding this phenomenon. Here we examine how this approach can be scaled down by an order of magnitude in size, using gold building blocks. We study how this method can be used to assemble tetrahedral plasmonic resonators in order to create a bulk, isotropic, optical metamaterial.

^*We acknowledge support from the DOE Office of Science Graduate Fellowship program.

March 20, 2013, 1:51 PM – March 20, 2013, 2:03 PM

Authors

Nicholas B. Schade
- Harvard University
Dazhi ``Peter'' Sun
- Brookhaven National Laboratory
Miranda Holmes-Cerfon
- Harvard University
- New York University, Courant Institute of Mathematical Sciences
Elizabeth R. Chen
- School of Engineering and Applied Sciences, Harvard University
- Harvard University
Emily W. Gehrels
- Harvard University
Jonathan A. Fan
- Harvard University
Oleg Gang
- Brookhaven National Laboratory
Vinothan N. Manoharan
- School of Engineering and Applied Sciences, Harvard University, Cambridge, MA, USA
- Harvard SEAS and Physics
- Harvard University
- Physics Department and SEAS Harvard University
- Harvard University, School of Engineering and Applied Sciences and the Department of Physics
- Harvard
- Harvard University, School of Engineering and Applied Sciences and Dept. of Physics