You may find three types of AiiDA WorkChains in this repository.
- WorkChains which are developed by myself.
- WorkChains which have been developed on top of AiiDA LSMO WorkChains for the purpose of my research but are provided here for now due to considerable deviation from original design.
- Information about other WorkChains from other groups which we are using for our research .
To use AiiDA-MatDis
workchains use the following packages:
NOTE Workchains currently are tested with AiiDA Core v1.0.1
git clone https://github.com/pzarabadip/aiida-MatDis
pip install -e .
VoronoiEnergyWorkChain
: Calculation of Voronoi energies usingaiida-zeopp
andaiida-porousmaterials
VLCCWorkChain
: Construction of vapor-liquid coexistence curves usingaiida-raspa
NOTE Following workchains are developed on top of LSMO IsothermWC
to add multi-component feature with some changes. If you are interested in calculating single-component adsorption isotherms please visit aiida-lsmo
repository. You also can find other interesting and very well developed workchains there.
HTSWorkChain
: Calculation of multi component adsorption for a few pressure points usingaiida-zeopp
andaiida-raspa
plugins. It submits allRASPA
calculations in parallel.HTSMultiTWorkChain
: Similar toHTSWorkChain
for obtatining the multi-component adsorption values at different temperatures.HTSEvWorkChain
: It is a modified version ofHTSWorkChain
which takes the output dictionary ofVoronoiEnergyWorkChain
and performs the consequent calculations.MultiCompIsothermWorkChain
: It can be used to construct a full range multi-component adsorption isotherm. Here the difference withHTSWorkChain
is that similar toIsothermWC
fromaiida-lsmo
, calculations at higher pressure points are using the final configuration from the previous point.
NOTE Isotherm wokchains all benefit from FFBuilder
of aiida-lsmo
to construct force field definition files.
If you benefit from AiiDA
in your research, please cite this paper by G. Pizzi et. al.
If you use above-mentioned workchains for gas adsorption, please cite this paper by D. Ongari et. al.
Documentation for each WorkChain including the references, sources, know-hows, etc are provided in the Wiki (In Progress).
I would like to thank the funding received from the European Union’s Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie Actions and cofinancing by the South Moravian Region under agreement 665860. This software reflects only the authors’ view and the EU is not responsible for any use that may be made of the information it contains.