Litcius/Paper detail

Discovery of two-dimensional binary nanoparticle superlattices using global Monte Carlo optimization

Yilong Zhou, Gaurav Arya

2022Nature Communications17 citationsDOIOpen Access PDF

Abstract

Abstract Binary nanoparticle (NP) superlattices exhibit distinct collective plasmonic, magnetic, optical, and electronic properties. Here, we computationally demonstrate how fluid-fluid interfaces could be used to self-assemble binary systems of NPs into 2D superlattices when the NP species exhibit different miscibility with the fluids forming the interface. We develop a basin-hopping Monte Carlo (BHMC) algorithm tailored for interface-trapped structures to rapidly determine the ground-state configuration of NPs, allowing us to explore the repertoire of binary NP architectures formed at the interface. By varying the NP size ratio, interparticle interaction strength, and difference in NP miscibility with the two fluids, we demonstrate the assembly of an array of exquisite 2D periodic architectures, including AB-, AB 2 -, and AB 3 -type monolayer superlattices as well as AB-, AB 2 -, A 3 B 5 -, and A 4 B 6 -type bilayer superlattices. Our results suggest that the interfacial assembly approach could be a versatile platform for fabricating 2D colloidal superlattices with tunable structure and properties.

Topics & Concepts

Monte Carlo methodBinary numberSuperlatticeNanoparticleStatistical physicsMaterials scienceComputer scienceNanotechnologyPhysicsCondensed matter physicsMathematicsStatisticsArithmeticQuantum Dots Synthesis And PropertiesGold and Silver Nanoparticles Synthesis and ApplicationsNanocluster Synthesis and Applications
Discovery of two-dimensional binary nanoparticle superlattices using global Monte Carlo optimization | Litcius