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Thermophoresis and thermal orientation of Janus nanoparticles in thermal fields

Abstract: Thermal fields provide a route to control the motion of nanoparticles and molecules and potentially modify the behaviour of soft matter systems. Janus nanoparticles have emerged as versatile building blocks for the self-assembly of materials with novel properties. Here we investigate using non-equilibrium molecular dynamics simulations the behaviour of coarse-grained models of Janus nanoparticles under thermal fields. We examine the role of the heterogeneous structure of the particle on the Soret coefficient and thermal orientation by studying particles with different internal structures, mass distribution, and particle-solvent interactions. We also examine the thermophoretic response with temperature, targeting liquid and supercritical states and near-critical conditions. We find evidence for a significant enhancement of the Soret coefficient near the critical point, leading to the complete alignment of a Janus particle in the thermal field. This behaviour can be modelled and rationalized using a theory that describes the thermal orientation with the nanoparticle Soret coefficient, the mass and interaction anisotropy of the Janus nanoparticle, and the thermal field's strength. Our simulations show that the mass anisotropy plays a crucial role in driving the thermal orientation of the Janus nanoparticles.

 Autoría: Bresme F., Olarte-Plata J.D., Chapman A., Albella P., Green C.,

 Fuente: European Physical Journal E, 2022, 45, 59

 Editorial: Springer Nature

 Fecha de publicación: 09/07/2022

 Nº de páginas: 14

 Tipo de publicación: Artículo de Revista

 DOI: 10.1140/epje/s10189-022-00212-3

 ISSN: 1292-8941,1292-895X

 Proyecto español: PGC2018-096649-B-I00

 Url de la publicación: https://doi.org/10.1140/epje/s10189-022-00212-3

Autoría

BRESME, FERNANDO

OLARTE-PLATA, JUAN D.

CHAPMAN, AIDAN

GREEN, CALUM