AI Article Synopsis
- The study focuses on how cylinder-forming polystyrene-block-poly(4-vinylpyridine) block copolymers (BCP) self-assemble with metal nanoparticles (NP) coated in short-chain polystyrene ligands.
- It was found that the formation and arrangement of NP superstructures depend on the size ratio between the cylindrical domains of the copolymers and the nanoparticles, influencing both the number of NP layers and their packing density.
- Molecular dynamics simulations were used to support experimental findings and helped to create a structural phase diagram that shows how different sizes and concentrations of NP affect their assembly, transitioning from spherical to cylindrical forms.
Article Abstract
We investigate the self-assembly of cylinder-forming polystyrene-block-poly(4-vinylpyridine) (PS-b-P4VP) block copolymers (BCP) mixed with metal nanoparticles (NP) coated with short-chain polystyrene (PS) ligands. The NP formed hierarchical superstructures under confinement of cylindrical PS domains of PS-b-P4VP BCP. The complexity of NP superstructures was found to depend on the ratio between PS cylindrical domain size and NP size (D/D). As the D/D ratio increased, the number of NP layers normal to the cylinder axis also increased. However, the packing density of the NP decreased at higher D/D. Furthermore, the morphology of the structures obtained during different solvent casting conditions revealed that the initial clustering of NP and micellization around these clusters act as a precursor for the subsequent formation of closely packed structures of NP in cylinders. The experimental results were further supported by modeling results obtained from molecular dynamics (MD) simulation. Based on MD simulations, we constructed structural phase diagram of nanoparticle assemblies in the presence of asymmetric diblock copolymers comprising short NP-attractive blocks. The MD simulation results indicate that NP undergo transition from spherical to cylindrical assemblies depending on the NP size, the overall concentration of components and the degree of affinity of the minor block to NP.
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| http://dx.doi.org/10.1016/j.jcis.2020.05.115 | DOI Listing |
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