The research solution for identifying material properties Fast and reliable insights accelerating materials science research

SpringerMaterials provides curated data and advanced functionalities to support research in materials science, physics, chemistry, engineering, and other related fields.

  • A comprehensive database covering multiple material classes, property types, and applications
  • Enhanced data visualization features display interactive crystal structures, data tables, and phase diagrams with export options for further analysis
  • Search functions optimized for materials science like elemental composition or chemical structure searching to quickly find material property data
  • Trusted and curated resource with thousands of materials science experts ensuring high data quality
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LATEST DEVELOPMENTS ON SPRINGERMATERIALS

  • Ionic Liquids Announcement

    The SpringerMaterials team is excited to announce the addition of a new digitized dataset on physicochemical properties of ionic liquids. The dataset was previously only available in static pdf format in our Landolt-Börnstein bookshelf, but is now also available in digitized, machine-readable format. This collection contains 79,500+ datapoints for 1141 binary and ternary mixtures. Browse through the collection here.

  • Inorganic Solid Phases Updates

    We are thrilled to announce the addition of new content to the SpringerMaterials platform. The Inorganic Solid Phases collection was just updated with a wealth of new data across a range of material classes carefully curated by subject matter experts. This update contains:

    • 15,000 new crystal structures

      • View 2024 crystal structures report here.

    • 10,000 new physical property datasheets

      • View 2024 physical property datasheets report here.

    • 1,000 new phase diagrams

      • View 2024 phase diagram report here.

  • SGTE Announcement

    We are excited to announce more interactive content on SpringerMaterials. We’ve just added 689 interactive phase diagrams sourced from the Landolt-Bornstein volumes (Group IV19C). This collection contains both binary and ternary alloys and allows users to explore and analyze these materials systems more efficiently.