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- ItemFlexible and transparent electrodes imprinted from Au nanowires: stability and ageing(Cambridge : Royal Society of Chemistry, 2022) Engel, Lukas F.; González-García, Lola; Kraus, TobiasWe study the stability of flexible transparent electrodes (FTEs) that were self-assembled from ultra-thin gold nanowires (AuNW) by direct nanoimprinting of inks with different particle concentrations (1 to 10 mg mL−1). The resulting lines were less than 3 μm wide and contained bundles of AuNW with oleylamine (OAm) ligand shells. Small-angle X-ray scattering confirmed a concentration-independent bundle structure. Plasma sintering converted the wire assemblies into lines with a thin metal shell that contributes most to electrical conductivity and covers a hybrid core. We studied the relative change in sheet resistance and the morphology of the FTEs with time. The sheet resistance increased at all concentrations, but at different rates. The metal shell aged by de-wetting and pore formation. The hybrid core de-mixed and densified, which led to a partial collapse of the shell. Residual organics migrated through the shell via its pores. Lines formed at low concentration (cAu = 2 to 3 mg mL−1) contained less residual organics and aged slower than those formed at high cAu ≥ 5 mg mL−1. We passivated the conductive shell with thin, adsorbed layers of PEDOT:PSS and found that it decelerated degradation by slowing surface diffusion and hindering further rupture of the shell. Thick capping layers prevented degradation entirely and stopped pore formation.
- ItemStructural and chemical characterization of MoO2/ MoS2 triple-hybrid materials using electron microscopy in up to three dimensions(Cambridge : Royal Society of Chemistry, 2021) Frank, Anna; Gänsler, Thomas; Hieke, Stefan; Fleischmann, Simon; Husmann, Samantha; Presser, Volker; Scheu, ChristinaThis work presents the synthesis of MoO2/MoS2core/shell nanoparticles within a carbon nanotube networkand their detailed electron microscopy investigation in up to three dimensions. The triple-hybrid core/shellmaterial was prepared by atomic layer deposition of molybdenum oxide onto carbon nanotube networks,followed by annealing in a sulfur-containing gas atmosphere. High-resolution transmission electronmicroscopy together with electron diffraction, supported by chemical analysisviaenergy dispersive X-ray and electron energy loss spectroscopy, gave proof of a MoO2core covered by few layers of a MoS2shell within an entangled network of carbon nanotubes. To gain further insights into this complexmaterial, the analysis was completed with 3D electron tomography. By usingZ-contrast imaging, distinctreconstruction of core and shell material was possible, enabling the analysis of the 3D structure of thematerial. These investigations showed imperfections in the nanoparticles which can impact materialperformance,i.e.for faradaic charge storage or electrocatalysis.
- ItemFlexible and transparent electrodes imprinted from metal nanostructures: morphology and opto-electronic performance(Cambridge : Royal Society of Chemistry, 2022) Engel, Lukas F.; González-García, Lola; Kraus, TobiasWe directed the self-assembly of nanoscale colloids via direct nanoimprint lithography to create flexible transparent electrodes (FTEs) with metal line widths below 3 μm in a roll-to-roll-compatible process. Gold nanowires and nanospheres with oleylamine shells were imprinted with soft silicone stamps, arranged into grids of parallel lines, and converted into metal lines in a plasma process. We studied the hierarchical structure and opto-electronic performance of the resulting grids as a function of particle geometry and concentration. The performance in terms of optical transmittance was dominated by the line width. Analysis of cross-sections indicated that plasma sintering only partially removed the insulating ligands and formed lines with thin conductive shells and a non-conductive core. We provide evidence that the self-assembly of high-aspect nanowires can compensate for defects of the stamp and substrate irregularities during imprinting, while spheres cannot. The wire-based electrodes thus outperformed the sphere-based electrodes at ratios of optical transmittance to sheet resistance of up to ≈ 0.9% Ωsq−1, while spheres only reached ≈ 0.55% Ωsq−1
- ItemReversible magnetism switching of iron oxide nanoparticle dispersions by controlled agglomeration(Cambridge : Royal Society of Chemistry, 2021) Müssig, Stephan; Kuttich, Björn; Fidler, Florian; Haddad, Daniel; Wintzheimer, Susanne; Kraus, Tobias; Mandel, KarlThe controlled agglomeration of superparamagnetic iron oxide nanoparticles (SPIONs) was used to rapidly switch their magnetic properties. Small-angle X-ray scattering (SAXS) and dynamic light scattering showed that tailored iron oxide nanoparticles with phase-changing organic ligand shells agglomerate at temperatures between 5 °C and 20 °C. We observed the concurrent change in magnetic properties using magnetic particle spectroscopy (MPS) with a temporal resolution on the order of seconds and found reversible switching of magnetic properties of SPIONs by changing their agglomeration state. The non-linear correlation between magnetization amplitude from MPS and agglomeration degree from SAXS data indicated that the agglomerates' size distribution affected magnetic properties.