Outcomes

the latest outcomes

Publications view all
from our users
Measurement, 122366 (2026)
Cross-instrument measurement framework linking X-ray μCT and photoluminescence spectroscopy: Application to microcracks characterization in mineralized enamel
Read Abstract
Correlative characterization of micro-scale defects in heterogeneous mineralized materials requires the spatial fusion of measurement modalities that differ in resolution, contrast mechanism, and coordinate system. This study presents a non-destructive multimodal measurement methodology in which X-ray micro-computed tomography (µCT) and spatially selective photoluminescence (PL) spectroscopy are linked on an intact specimen by a 3D surface mesh-assisted spatial registration framework, with complementary energy-dispersive X-ray spectroscopy (EDS) used to characterize the associated compositional changes. The registration aligns the volumetric and point-resolved measurements with a spatial uncertainty bounded by the PL laser spot size (diameter 80 µm) and the µCT voxel size (7 × 7 × 7 µm3), both smaller than the spacing between adjacent measurement points, ensuring well-defined co-localization of crack-affected and pristine regions. The methodology was demonstrated on extracted human premolars with visible enamel microcracks: 192 polarization-resolved PL spectra per tooth, acquired at 325 nm excitation across 12 spatial positions (6 cracked, 6 pristine) and spatially registered to the µCT datacube, revealed a reproducible difference in spectral shape between crack-affected and pristine regions. A peak asymmetry index, defined as the ratio of the two emission maxima, was reduced in cracked regions consistently in both teeth and significantly when pooled across specimens (1.16 vs 1.28; p = 0.014), supported by EDS evidence of increased carbon content at crack sites (a 42% relative increase in averaged carbon content, with the carbon-to-oxygen ratio rising from 0.46 to 0.84). The validated measurement framework — its spatial registration with bounded uncertainty — is material-independent and generalizable to correlative volumetric and spectroscopic defect characterization in heterogeneous solids.
Link to publication
from our users
Cell Reports Physical Science Volume 7, Issue 5, 20 May 2026, 103312
Color-tunable luminescent TbxEuy(BDC) complexes assembled within liposome-based nanoreactors
Read Abstract
Precise stoichiometric control in multimetallic lanthanide nanosystems is essential for optical devices, sensing, and bioimaging applications owing to their composition-dependent emission properties. However, controlling metal composition, spatial distribution, intermetallic energy transfer, and colloidal stability remains challenging. Here, we report a liposome-based nanoreactor platform that enables the in situ formation of multivariate TbxEuy-dicarboxylate complexes, enabling finely tuned lanthanide stoichiometry within attoliter-scale confined volumes. Liposomes pre-loaded with specific Tb3+:Eu3+ ratios are combined with a synthetic anion transporter that mediates dicarboxylate transport through lipid membranes, enabling controlled coordination reactions in aqueous solution. This method, coupled with the use of a blue-emissive ligand, supports continuous color tuning across the entire RGB spectrum. Real-time emission spectroscopy reveals faster photoluminescence appearance for Eu3+ than Tb3+, providing experimental insight into lanthanide reactivity under nanoscale confinement. These findings position liposome-based nanoreactors as a versatile platform for investigating coordination reactions and engineering multimetallic luminescent colloidal materials in aqueous media.
Link to publication
from our users
Diamond and related materials. - Vol. 165, 113690 (2026)
Ultrafast electron cooling in Ti3C2Tx MXene revealed by time-resolved photoemission spectroscopy
Read Abstract
Ultrafast electron dynamics in a Ti3C2Tx MXene thin film (where Tx denotes surface terminations) were investigated using time-resolved photoemission spectroscopy with temporal resolution of 110 fs. Near-infrared optical excitation at 800 nm induces a transient redistribution of electronic states in the vicinity of the Fermi level, which is directly probed using extreme-ultraviolet (26.5 eV) pulses. The measured signal reveals a rapid modification of the electronic distribution immediately after excitation, followed by relaxation on sub-0.5 ps timescales, as quantified by the evolution of the electronic temperature. These results provide direct insight into hot-electron lifetimes and open the study of relaxation pathways in MXene thin films, establishing a framework for further understanding and optimizing their performance.
Link to publication
Deliverables view all
WP2 - MGT2 - Pilot scheme for the management of a distributed research infrastructure offering harmonised, interoperable and integrated services
D2.8 - Second call for additional providers
Read Abstract
According to the Grant Agreement, in the lifetime of NFFA-Europe Pilot the Transnational Access offer must enlarge to meet (i) the qualitative needs of users that could be better met with new specialized providers, or (ii) quantitative needs resulting in oversubscription of the current capacity. To this aim, two calls for additional access providers were foreseen at M24 and M40, respectively. This report describes the rationale that led to the text of the second call for additional access providers, i.e. from the evaluation of the needs – mainly based on the analysis provided in the deliverable D2.7 “Second balance of access provision” - to the search for alternative solutions to widen and strengthen the current offer.
Download full report
WP14 - JA4 - A safe-by-design platform for nanomaterials
D14.4 - Integration and characterization of the space correlation functionality on the complete setup
Read Abstract
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.
Download full report
WP14 - JA4 - A safe-by-design platform for nanomaterials
D14.5 - Production and report of three case studies with selected workflows
Read Abstract
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.
Download full report
Transnational Access Statistics
31 calls for access
1176 proposals submitted
61% rate of acceptance
30% with Large Scale Facilities
13% with theory
12% with industry
~3 average users per proposal
66 countries applying
3653 lab sessions