Scientific Data (Jan 2025)

Linking Research Data with Physically Preserved Research Materials in Chemistry

  • Chia-Lin Lin,
  • Pei-Chi Huang,
  • Simone Gräßle,
  • Christoph Grathwol,
  • Pierre Tremouilhac,
  • Sylvia Vanderheiden,
  • Patrick Hodapp,
  • Sonja Herres-Pawlis,
  • Alexander Hoffmann,
  • Fabian Fink,
  • Georg Manolikakes,
  • Till Opatz,
  • Andreas Link,
  • M. Manuel B. Marques,
  • Lena J. Daumann,
  • Manuel Tsotsalas,
  • Frank Biedermann,
  • Hatice Mutlu,
  • Eric Täuscher,
  • Felix Bach,
  • Tim Drees,
  • Steffen Neumann,
  • Shashank S. Harivyasi,
  • Nicole Jung,
  • Stefan Bräse

DOI
https://doi.org/10.1038/s41597-025-04404-2
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 12

Abstract

Read online

Abstract Results of scientific work in chemistry can usually be obtained in the form of materials and data. A big step towards transparency and reproducibility of the scientific work can be gained if scientists publish their data in research data repositories in a FAIR manner. Nevertheless, in order to make chemistry a sustainable discipline, obtaining FAIR data is insufficient and a comprehensive concept that includes preservation of materials is needed. In order to offer a comprehensive infrastructure to find and access data and materials that were generated in chemistry projects, we combined the infrastructure Chemotion repository with an archive for chemical compounds. Samples play a key role in this concept: we describe how FAIR metadata of a virtual sample representation can be used to refer to a physically available sample in a materials’ archive and to link it with the FAIR research data gained using the said sample. We further describe the measures to make the physically available samples not only FAIR through their metadata but also findable, accessible and reusable.