Linker-Mediated Self-Assembly Dynamics of Charged Nanoparticles

Guanhua Lin, See Wee Chee, Sanoj Raj, Petr Král, and Utkur Mirsaidov

ACS Nano, 2016, 10 (8), pp 7443–7450. DOI: 10.1021/acsnano.6b01721. Publication Date (Web): August 05, 2016

Using in situ liquid cell transmission electron microscopy (TEM), we visualized a stepwise self-assembly of surfactant-coated and hydrated gold nanoparticles (NPs) into linear chains or branched networks. The NP binding is facilitated by linker molecules, ethylenediammonium, which form hydrogen bonds with surfactant molecules of neighboring NPs. The observed spacing between bound neighboring NPs, ∼15 Å, matches the combined length of two surfactants and one linker molecule. Molecular dynamics simulations reveal that for lower concentrations of linkers, NPs with charged surfactants cannot be fully neutralized by strongly binding divalent linkers, so that NPs carry higher effective charges and tend to form chains, due to poor screening. The highly polar NP surfaces polarize and partly immobilize nearby water molecules, which promotes NPs binding. The presented experimental and theoretical approach allows for detail observation and explanation of self-assembly processes in colloidal nanosystems.

Read online: ACS Nano.