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Publication package, Size- and polymer-dependent toxicity of amorphous environmentally relevant micro- and nanoplastics in human bronchial epithelial cells
No full textPublication package accompanying the publication 'Size- and polymer-dependent toxicity of amorphous environmentally relevant micro- and nanoplastics in human bronchial epithelial cells', published in the journal Microplastics and Nanoplastics, May 2025. The study is performed as part of the MOMENTUM 1.0 and MOMENTUM 2.0 consortium.
paper: DOI:10.1186/s43591-025-00126-
AI Governance
No full textRelevant parliamentary letters, websites and other policy documents on the governance of AI in the Dutch healthcare secto
Emotion in Stories: Facial EMG Evidence for Both Mental Simulation and Moral Evaluation
No full textContains all relevant information regarding experiment set-up, data, analysis, and publication for the paper: https://doi.org/10.3389/fpsyg.2018.0061
Experiment Playful Robots
No full textThis package refers to an experiment conducted with adults in the context of a theatre festival (SPRING) and a robot Pepper that was controlled by three puppeteers. The adults played one-on-one three short games with the robot Pepper. The video recordings of this experiment have been lost. This experiment took place during the Acting like a Robot Project (1 March 2020 to 1 March 2025), funded by NWO Smart Cultures (CISC.KC.206)
Post-Polymerization Modification of Polyethylene through Photochemical Oximation and Consecutive Ketonization
No full textThe data package contains the spectroscopic data (NMR, FTIR & EPR), thermoanalytic data (TGA & DSC), chromatographic data (GPC), lap shear testing and tensile testing data for this publication. See the readme file for more detailed information
The Impact of Tungsten Dispersion on the Activation of Zeolite-Based Catalysts for Methane Dehydroaromatization
No full textThis data package contains all experimental data related to submission cs-2024-072287 to ACS Catalysis authored by J.J.G. Kromwijk, J.G.A. Vloedgraven, F. Neijenhuis, W. van der Stam, and B.M. Weckhuysen. The raw data files can be found for the operando experiments (GC and UV-Vis spectroscopy), in situ XRD, and all ex situ characterization (XRD, Raman spectroscopy, ICP-OES, Ar physisorption, STEM-HAADF, NH3-TPD, and UV-Vis spectroscopy)
Datapackage of "Spectro-Electrochemistry of Guaiacol Oxidation: Tracking Intermediates in a Membrane-Separated Cell with In Situ Attenuated Total Reflectance-Infrared Spectroscopy"
No full textraw data used for the publication "Spectro-Electrochemistry of Guaiacol Oxidation: Tracking Intermediates in a Membrane-Separated Cell with In Situ Attenuated Total Reflectance-Infrared Spectroscopy
Cyber Threats of Shadow IT in Dutch Higher Education and Research
No full textData package accompanying the MSc thesis "Cyber Threats of Shadow IT in Dutch Higher Education and Research
GLOBGM_CMIP6: A Global Hyper-Resolution Groundwater Dataset for Assessing Historical and Future Groundwater Dynamics Under Climate and Socioeconomic Change - [globgm_historical_reference_gswp3-w5e5]
No full textThis data package contains outputs from the global groundwater flow model GLOBGM, which was used to estimate global water table depth and groundwater heads at 30 arc-seconds (~1 km) resolution. The model was forced with outputs from the PCR-GLOBWB model, obtained through the HYPFLOWSCI6 project.
We provide long-term average, annual, and monthly estimates of water table depth and groundwater heads at the global scale for a historical reference simulation following the ISIMIP3a protocol, which is designed for model evaluation and impact attribution.
Additionally, we provide outputs following the ISIMIP3b protocol, which focuses on impact attribution and climate change impact assessment. These outputs cover the historical baseline period (1960–2014) and future projections (2015–2100) under three SSP-RCP scenarios (SSP1-2.6, SSP3-7.0, and SSP5-8.5), using five GCM models: GFDL-ESM4, IPSL-CM6A-LR, MPI-ESM1-2-HR, MRI-ESM2-0, and UKESM1-0-LL.
This data package contains the data for the historical reference simulation. For a comprehensive overview of the entire dataset and where to access the data please see: https://vanjaarsveldbarry.github.io/globgm_cmip6
MATLAB files used to calculate the integrated stress versus elastic and inelastic strain behaviour in the publication: “Microphysics of Time-Dependent Deformation of Clay-Bearing Sandstone: Grain Shape Matters”
No full textSandstone formations are among the most common targets for hydrocarbon production. However, these activities often lead to surface subsidence or even induced seismicity, such as observed in the Groningen gas field, Netherlands. These phenomena are caused by reservoir compaction driven by pore pressure depletion and the associated increase in effective overburden stress. Such compaction is partly elastic, but can additionally be caused by instantaneous plastic and rate- or time-dependent processes, such as compaction and shearing of intergranular clay films and subcritical crack growth. Understanding these processes and associated constitutive response is key to reliably assessing the long-term effects of hydrocarbon production.
To this end, we developed a simplified microphysical model with a variable microstructure (i.e. unit cells with varying grain packings), with the aim of capturing the deformation mechanisms observed in triaxial compression experiments on clay-bearing Bleurswiller sandstone (porosity 21%). The mechanisms include rate-independent consolidation of intergranular clay films, rate-dependent intergranular slip along the clay films and stress corrosion cracking of quartz/clastic grains. Our model predicts mechanical behaviour consistent with the main features and trends observed in the experimental data.
The files presented here are the MATLAB scripts used to compute the modelled stress versus elastic and inelastic strain behavior of individual unit cells and the bulk sandstone, and are stored in the folder Scripts. Running the script MAIN.m allows for the generation of modelled behaviour presented in Figures 5 and 6 in the main paper. The MAIN.m depends on the following scripts: InputParam.m, which defines all input parameters; CalcMicroModel.m, which computes the modelled stress versus elastic and inelastic strain behavior of individual unit cells; AxStrainIncrementCracking.m, which calculates the axial strain increment caused by stress corrosion (meridional) cracking; OverallBehaviour.m, which computes the modelled stress versus elastic and inelastic strain behavior of the bulk sandstone; and PlotOverallMech.m and PlotUnitCellMech.m, which display the modelled behaviour of the bulk sandstone and individual unit cells, respectively.
We refer the user to the corresponding paper for the mathematical descriptions used in the script