Chemie und Prozesstechnik
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A variety of methods used to prepare nano-objects for surface analysis are described along with information about when they might be best applied. Intrinsic properties of NPs which complicate their characterization and need to be considered when planning for surface or other analyses of NPs are identified, including challenges associated with reproducible synthesis and functionalization of the particles as well as their dynamic nature. The relevant information about the sample preparation processes, along with analysis details and data that need to be added to the collection of material provenance information is identified. Examples of protocols that have been successfully used for preparation of nano-objects for surface analysis are included in an annex.
Products containing engineered nanoparticles already encounter us in most areas of our daily life including cosmetics, clothing, detergents, paints, batteries and displays. In most cases the particles exhibit a core-shell morphology either voluntarily or involuntarily. The properties of the nanoparticle shell determine the interaction with their environment and, thus, reliable control over these properties means reliable control over the particles performance and their toxicity. Therefore, sophisticated techniques to measure thickness and elemental composition of the nanoparticle shell are urgently required.
Scanning Auger microscopy (SAM) is a powerful technique with a lateral resolution below 10 nm and a chemical contrast based on the characteristic kinetic energy of Auger electrons related to specific atomic levels and, thus, to a specific element. This work explores the potential of SAM for characterizing the core-shell structure of nanoparticles. A sample system of upconversion NaYF4:Yb,Er cores coated with SiO2 is investigated. Auger spectra, line scans and elemental maps of single nanoparticles will be presented. Challenges encountered will be highlighted, such as damage to the sample by electron beam irradiation. Scanning electron microscopy (SEM) and energy-dispersive X-ray spectroscopy (EDX) are performed on the same samples, in order to verify the SAM results.