Prolate spheroidal polystyrene nanoparticles : matrix assisted synthesis, interface properties, and scattering analysis

Title data

Benke, Dominik ; Feller, Tanja ; Kruesmann, Marcel ; Neuhöfer, Anna M. ; Ganster, Friederike ; Karg, Matthias ; Retsch, Markus:
Prolate spheroidal polystyrene nanoparticles : matrix assisted synthesis, interface properties, and scattering analysis.
In: Soft Matter. Vol. 19 (2023) Issue 46 . - pp. 9006-9016.
ISSN 1744-6848
DOI: https://doi.org/10.1039/D3SM01002C

Project information

Abstract in another language

Shape-anisotropic colloids are increasingly attracting attention for the fabrication of nano- and mesostructured materials. Polymer-based prolate spheroids are typically accessible through a two-step fabrication procedure comprising the synthesis of monodisperse particles of initially spherical shape and their stretching into elongated, ellipsoidal-like objects. The particle stretching is conducted within a matrix polymer, most commonly polyvinylalcohol, which allows heating beyond the glass transition temperature of the polymer particles, e.g. polystyrene. Here, we investigate various aspects of the synthesis and their consequences for the resulting colloids. Loading the stretching matrix with a high amount of polymer particles results in small particle clusters, which are separated during the mechanical stretching step. At the same time, the matrix polymer physisorbs at the particle surface which can be removed via a rigorous work-up procedure. Overall, this process allows for a precise adjustment of the aspect ratio of the prolate spheroids with a small size distribution and retained electrostatic stabilization. We analyse these particles with a range of microscopic and scattering techniques, including depolarized dynamic light scattering that gives access to the rotational diffusion coefficients.