31 May 2025

T. F. Keller (DESY), S. Kulkarni (DESY), H.A Suarez Orduz (ESRF), H. Castillo-Michel (ESRF)

This report presents an experimental workflow designed to perform correlative measurements as part of the NEP-NFFA project, using silicon nitride (Si3N4) membranes equipped with platinum (Pt) markers. These membranes were developed through a collaboration between DESY NanoLab and ESRF-ID21. DESY NanoLab was responsible for the Pt deposition on the Si3N4 membranes, while ESRF-ID21 carried out the correlative measurements. The purpose of the Pt markers on the membranes is to act as fiducial points that help to precisely locate specific regions or points of interest (ROI/POI) with micrometric or nanometric accuracy. This is essential to analyze the same point of the sample using different techniques, and to collect complementary data for a better understanding of the sample. The proposed workflow involves complementary techniques such as optical microscopy, scanning electron microscopy (SEM), and synchrotron-based techniques like micro X-ray fluorescence (µXRF) performed at the nano-X-ray microscope (nano-SXM) at beamline ID21 of the Softhis report describes the initial design of the membranes with the markers, as well as the optimized version, based on results obtained during the first tests with nano-SXM. In addition, it shows how the Pt markers enable accurate correlation through the web-based graphical interface Daiquiri, linking the morphological information from optical microscopy with the chemical information obtained from µXRF. The technical feasibility of this approach has been confirmed, showing that the process is reproducible and potentially applicable to similar studies. This is possible due to the standardized Pt deposition process and the use of nano-SXM for sample localization and data acquisition.

31 May 2025

J. Linell (LUND), C. Isaxson (LUND), C. Abrahamsson (LUND), Maria Enea (INL) et al.

This report aims to demonstrate the usefulness of the NFFA workflow to assess nanomaterials and their interaction with different cell lines. It also seeks to generate improved protocols and educational material that can be shared with other European users working with similar ENMs.

28 Feb 2025

N. Marzari (EPFL and PSI), R. Aversa (KIT), A. Recchia (eXact lab), G. P. Brandino (eXact lab), V. Granata (EPFL), E. Bainglass (PSI)

This deliverable summarizes the experience and guidelines for the NFFA community in developing, deploying, and using data provenance tools. It is articulated in 3 sections, dedicated to 1) establishing the high-level provenance of the physical and digital entities of research workflows, 2) automatically integrating this into digital provenance tools, including electronic lab notebooks and workflow management systems, and 3) disseminating this in FAIR modes to the community at large.