The MPDS presents the materials data, extracted by the project PAULING FILE team from the scientific publications. Even nowadays this task cannot be fully automated, so we had to manually process and systematize around 300 thousands articles in physics, chemistry, and materials science. The results are now available online.
§1. Introductory examples
Given a picture is worth a thousand words, a screencast is worth a thousand pictures. See Fig. 1-3.
§2. PAULING FILE
The PAULING FILE is the relational database for materials scientists, grouping crystallographic data, phase diagrams, and physical properties of inorganic crystalline substances under the same frame. Its focus is put on the experimental observations, and the data are processed from the original publications, covering world scientific literature from 1891 to the present date. Each individual crystal structure, phase diagram, or physical property database entry originates from a particular publication.
Now the PAULING FILE project is relatively well-known. There are already an order of thousand of publications referring it. Its foundations, database design, and some data-centric observations are published e.g. in the works Villars 2004, Villars 2008, Xu 2011, Kong 2012, and Villars 2013. In October 2019, Pierre Villars, the founder of the PAULING FILE project, was acknowledged for the fundamental research supporting data-driven materials research with the prestigious NIMS Award.
§3. MPDS platform
The MPDS platform is an online edition of the PAULING FILE materials database. All the data are presented in two ways (online interfaces): browser-based graphical user interface (GUI) and application programming interface (API). Here the browser-based user interface (GUI) is described, whereas the programmatic usage is covered in the API section.
Full access to all the data in all the supported formats (CIF, PDF, PNG, BIBTEX etc.) is provided by the subscription. Free access is also possible although limited. In addition, some parts of the data are open-access. In particular, these are: (a) cell parameters - temperature diagrams and cell parameters - pressure diagrams, (b) all data for compounds containing both Ag and K, (c) all data for binary compounds of oxygen.
§3.2. Search criteria and modes
Search of data at the MPDS platform is possible according to 14 criteria: 8 in physics or chemistry (materials classes, physical properties, chemical elements, chemical formulae, space groups, crystal systems, prototypes, and atomic environments) and 6 in bibliography (publication author, years, journal, geography, organization, and DOI). There are two search modes: simple and advanced.
In the simple mode different search terms can be typed all in a single input field (see Fig. 4). Here the most frequently used 5 criteria are supported: materials classes, physical properties, chemical elements, chemical formulae, and crystal systems. All they will be correctly recognized and attributed to your search keywords.
In the advanced mode each of the search criteria has its own input field. To use it, either click the middle search menu button (☰), or click the criteria boxes shown at the right of the results pages. Let us get acquainted with the meaning and proper usage of each criterion of search.
§3.3. Materials classes
In this category various materials classes are collected, ranging from technical terms to physical categories, chemical names, element counts, periodic table groups, some isotope names etc. There are lots of auxiliary terms, only applicable to the specific domains, e.g. cell-only, disordered, and non-disordered are valid for the crystalline structures (S-entries). Another example: the term ab initio refers to data taken from the theoretical first-principles modeling papers. Moreover, the majority of the known mineral names are supported, e.g. perovskite, baddeleyite, stishovite, yeelimite etc. Five special (arity) classes unary, binary, ternary, quaternary, and quinary restrict the distinct element count of the results. Some frequently occurring terms are collected below alphabetically (refresh the page to see the other examples).
§3.4. Physical properties
All the supported physical properties are given by the MPDS hierarchy. A search for a high-order property assumes all the subordinate properties included in the results. In addition, even more general terms like permittivity or pressure are supported. The physical properties containing these terms in the name will be found.
A part of the physical properties in the hierarchy supports numerical searches. For that an exact name of the property should be used together with the less or more sign and the numerical value of interest (in SI units). Example: isothermal bulk modulus > 300 (assuming GPa).
§3.5. Chemical elements
Chemical elements can be typed as names or symbols (e.g. copper or Cu). Obviously, chemical elements can be combined arbitrarily in searches, using spaces, commas, or dashes as the separators. By default, equal or greater count of elements is implied, e.g. the results for Cd-O-S may contain not only Cd, O, and S, but also Tl, H, N, K etc. To restrict the elements count, the arity materials classes unary, binary, ternary, quaternary, or quinary should be added, e.g. Cd-O-S ternary.
§3.6. Chemical formulae
In the chemical formulae order of elements does not matter. However the results will contain the chemical formulae with the standard order of elements (according to their electronegativity). For instance, the most frequently occurring chemical formulae are listed below alphabetically.
§3.7. Crystal systems and space groups
Seven crystal systems and 230 space groups are fully supported. The space groups can be specified as the number or international short symbol. Full list of crystal systems and space groups can be found e.g. in Wikipedia. Note, that crystal systems, space groups, and prototype systems (see below) are mutually exclusive, i.e. not possible to combine in a search query.
§3.8. Prototype systems
Prototype systems are supported in two notations: Strukturbericht and combined. The first notation is an old crystallographic classification system still sometimes used in the scientific literature (see the listing below). The second notation is given by a combination of the chemical formula, the Pearson symbol, and the space group number. For instance, the most common prototype in the world literature is NaCl cF8 225, counting about 40 000 hits. Other important structural prototypes are e.g. cubic perovskite CaTiO3 cP5 221, zincblende ZnS cF8 216, superconducting cuprate Ba2Cu3YO6.3 tP14 123 etc.
There are nearly 14000 unique distinct prototypes, including about 250 Strukturbericht symbols (see below). Being although very old notation, Strukturbericht is still popular in the literature.
§3.9. Atomic environments
The atomic environments in the crystalline structures are arranged in the polyhedra (e.g. TiO6 or HgX12). It is possible to search throughout the entire MPDS data by the type and the atomic composition of these polyhedra. The most frequently occurring polyhedral types are shown below, sorted by the number of vertices (i.e. the central atom coordination number or CN):
In this category, the first provided chemical symbol is the center of the polyhedron. It makes no sense to specify any numerical index nearby. The next provided chemical symbol is treated as a vertex. Here the numerical index is properly supported. The center and the vertices atoms can be provided together or subdivided using the space or minus sign. The X symbol stands for any chemical element. Consider the following examples: (a) U-center, any CN, any vertices, (b) any center, any CN, Se-vertices, (c) U-center, CN = 6, O-vertices, and (d) U-center, CN = 7, any vertices.
Since all the MPDS data were manually excerpted from the peer-reviewed articles, they are searchable by their corresponding author names, publication years, journal issues, pages, DOIs, geography etc. This information can be also used for citing. Generally citing of the MPDS is desirable, but not obligatory, as all the data have already their own publishers' citing information (DOIs etc.)
§4. Administrative interface
Account management of the MPDS platform allows certain privileged users (called super-admins) to create and manage the other user accounts. This is done as outlined below. First, the super-admin should be authenticated. Then the special web-page management can be opened.
This tutorial is a work in progress. We thank the reader for the time and interest! Any questions or feedback is very welcomed and greatly appreciated.