Litcius/Paper detail

A Unified Research Data Infrastructure for Catalysis Research – Challenges and Concepts

Christoph Wulf, Matthias Beller, Thomas Boenisch, Olaf Deutschmann, Schirin Hanf, Norbert Kockmann, Ralph Kraehnert, Mehtap Oezaslan, Stefan Palkovits, Sonja Schimmler, Stephan A. Schunk, Kurt Wagemann, David Linke

2021ChemCatChem86 citationsDOIOpen Access PDF

Abstract

Abstract Modern research methods produce large amounts of scientifically valuable data. Tools to process and analyze such data have advanced rapidly. Yet, access to large amounts of high‐quality data remains limited in many fields, including catalysis research. Implementing the concept of FAIR data (Findable, Accessible, Interoperable, Reusable) in the catalysis community would improve this situation dramatically. The German NFDI initiative (National Research Data Infrastructure) aims to create a unique research data infrastructure covering all scientific disciplines. One of the consortia, NFDI4Cat, proposes a concept that serves all aspects and fields of catalysis research. We present a perspective on the challenging path ahead. Starting out from the current state, research needs are identified. A vision for a integrating all research data along the catalysis value chain, from molecule to chemical process, is developed. Respective core development topics are discussed, including ontologies, metadata, required infrastructure, IP, and the embedding into research community. This Concept paper aims to inspire not only researchers in the catalysis field, but to spark similar efforts also in other disciplines and on an international level.

Topics & Concepts

InteroperabilityComputer scienceData scienceMetadataProcess (computing)SPARK (programming language)Field (mathematics)Knowledge managementWorld Wide WebOperating systemPure mathematicsProgramming languageMathematicsResearch Data Management PracticesScientific Computing and Data ManagementMachine Learning in Materials Science