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Metadata Files

Data Publication

Data package on the impact of nanoconfinement on the chemistry of geofluids

Alireza Chogani

Utrecht University

(2024)

Descriptions

To determine the effect of nanoconfinement on the geochemistry of water, we incorporate dielectric permittivity data of nanoconfined water into thermodynamic equilibrium models. We explored water self-ionization, ion pairing, pH, and aqueous speciation under nanoconfinement within the Earth. The data is organised into seven folders, each labelled as Figure X, where X corresponds to the figure number in the primary publication. Thermodynamic equilibrium modelling was conducted using the Geochemist Workbench (GWB) software, available at https://www.gwb.com/, and the PyGCC package, available at https://pypi.org/project/pygcc/. Detailed information about the files and methods employed can be found in the accompanying readme file.

Keywords

Originally assigned keywords

Analogue modelling of geologic processes

EPOS

nanogeoscience

Permittivity

confinement

Dielectric constant

Water self-ionization

Ion pairing

Molecular dynamics

Thermodynamic modeling

quartz

Electron Microprobe

Ionization

Corresponding MSL vocabulary keywords

quartz

electron probe micro-analyzer

electron probe micro analyser

MSL enriched keywords

minerals

silicate minerals

tectosilicates

quartz

equipment

electron probe micro-analyzer

Apparatus

microchemical analysis

electron probe micro analyser

measured property

MSL enriched sub domains i

geochemistry

microscopy and tomography

Source

https://public.yoda.uu.nl/geo/UU01/I358VI.html

Source publisher

Utrecht University

DOI

10.24416/uu01-i358vi

Creators

Alireza Chogani

Utrecht University

ORCID:

https://orcid.org/0000-0002-1284-832X

Citation

Chogani, A. (2024). Data package on the impact of nanoconfinement on the chemistry of geofluids (Version 1.0) [Data set]. Utrecht University. https://doi.org/10.24416/UU01-I358VI

Dates

Updated:

2024-10-09T15:35:11

Collected:

2023-09-04/2024-10-02

Language

Funding References

Funder name: European Research Council

Rights

Restricted - available upon request

Creative Commons Attribution 4.0 International Public License

Datacite version

Version 1.0