cifkit 1.0.2

Python library for high-throughput .cif analysis

cifkit

The documentation is available here: https://bobleesj.github.io/cifkit

cifkit is designed to provide a set of well-organized and fully-tested utility functions for handling large datasets, on the order of tens of thousands, of .cif files.

The current codebase and documentation are actively being improved as of July 8, 2024.

Motivation

In high-throughput analysis using .cif files, the research project has identified the folowing needs:

• Format files at once: .cif files parsed from databases often contain ill-formatted files. We need a tool to standardize, preprocess, and filter out bad files. I also need to copy, move, and sort .cif files based on specific attributes.
• Visualize coordination geometry: We are interested in determining the coordination geometry and the best site in the supercell for analysis in a high-throughput manner. We need to identify the best site for each site label.
• Visualize distribution of files: We want to easily identify and categorize a distribution of underlying .cif files based on supercell size, tags, coordination numbers, elements, etc.

Overview

Designed for individuals with minimal programming experience, cifkit provides two primary objects: Cif and CifEnsemble.

Cif

Cif is initialized with a .cif file path. It parses the .cif file, preprocesses ill-formatted files, generates supercells, and computes nearest neighbors. It also determines coordination numbers using four different methods and generates polyhedrons for each site.

from cifkit import Cif
from cifkit import Example

# Initalize with the example file provided
cif = Cif(Example.Er10Co9In20_file_path)

# Print attributes
print("File name:", cif.file_name)
print("Formula:", cif.formula)
print("Unique element:", cif.unique_elements)

CifEnsemble

CifEnsemble is initialized with a folder path containing .cif files. It identifies unique attributes, such as space groups and elements, across the .cif files, moves and copies files based on these attributes. It generates histograms for all attributes.

from cifkit import CifEnsemble
from cifkit import Example

# Initialize
ensemble = CifEnsemble(Example.ErCoIn_folder_path)

# Get unique attributes
ensemble.unique_formulas
ensemble.unique_structures
ensemble.unique_elements
ensemble.unique_space_group_names
ensemble.unique_space_group_numbers
ensemble.unique_tags
ensemble.minimum_distances
ensemble_test.supercell_atom_counts

Tutorial and documentation

You may use example .cif files that can be easily imported, and you can visit the documentation page here.

Installation

To install

pip install cifkit

You may need to download other dependencies:

pip install cifkit pyvista gemmi

gemmi is used for parsing .cif files. pyvista is used for plotting polyhedrons.

Visuals

Polyhedron

You can visualize the polyhedron generated from each atomic site based on the coordination number geometry. In our research, the goal is to map the structure and coordination number with the physical property.

from cifkit import Cif

# Example usage
cif = Cif("your_cif_file_path")
site_labels = cif.site_labels

# Loop through each site
for label in site_labels:
    # Dipslay each polyhedron, a file saved for each
    cif.plot_polyhedron(label, is_displayed=True)

Histograms

You can use CifEnsemble to visualize distributions of file counts based on specific attributes, etc. Learn all features from the documentation provided here.

By formulas:

By structures:

Project using cifkit

• CIF Bond Analyzer (CBA) - extract and visualize bonding patterns - DOI | GitHub
• CIF Cleaner - move, copy .cif files based on attributes - GitHub

How to ask for help

cifkit is also designed for experimental materials scientists and chemists.

• If you have any issues or questions, please feel free to reach out or leave an issue.

How to contribute

Here is how you can contribute to the cifkit project if you found it helpful:

• Star the repository on GitHub and recommend it to your colleagues who might find cifkit helpful as well.
• Fork the repository and consider contributing changes via a pull request.
• If you have any suggestions or need further clarification on how to use cifkit, please feel free to reach out to Sangjoon Bob Lee (@bobleesj).

Contributors

cifkit is made possible with contributions and support from the following individuals:

cifkit has been greatly enhanced thanks to the contributions from a diverse group of developers and researchers. Here are a few notable contributors:

• Anton Oliynyk: provided original ideation with .cif files
• Alex Vtorov: recommended tool for polyhedron visualization
• Danila Shiryaev: tested features as beta user
• Fabian Zills (@PythonFZ): suggested tooling improvements
• Emil Jaffal (@EmilJaffal): participated in initial testing and bug reporting
• Nikhil Kumar Barua: participated in initial testing and bug reporting

We welcome all forms of contributions from the community. Your ideas and improvements are valued and appreciated.