LabIMotion Electronic Lab Notebook as Research Data Management Tool in Catalysis

Proceedings of the Conference on Research Data Infrastructure Pub Date : 2023-09-07 DOI:10.52825/cordi.v1i.334

Paolo Dolcet, Mariam L. Schulte, Florian Maurer, Nicole Jung, Rinu Chacko, Olaf Deutschmann, J. Grunwaldt

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Abstract

In the field of heterogenous catalysis, Electronic Lab Notebooks (ELNs) are only rarely employed, due to complex data structure and different needs of the community with respect to the typical features provided by wide-spread ELNs. On the contrary, LabIMotion, an extension of the open-source ELN Chemotion, adapts to the characteristic complex workflows in heterogenous catalysis; these encompass catalyst synthesis, adaptation of devices and testing rigs, activity measurements, material characterization (possibly also in situ/operando, at large scale facilities) and are complemented by mathematical modelling and simulation. Direct links to metadata catalogues like SciCat (for synchrotron/neutron characterizations) and advanced research data management tools like Adacta (for improved traceability of catalytic data, experimental setups and related resources) are envisioned. The adaptability of LabIMotion in the catalysis field is presented via the topical examples of Cu-based catalysts for methanol synthesis and noble metal-based emission control catalysts.

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作为催化研究数据管理工具的LabIMotion电子实验笔记本

在多相催化领域，由于电子实验室笔记(Electronic Lab Notebooks, eln)具有广泛应用的典型特征，但数据结构复杂，社区需求不同，因此应用较少。相反，LabIMotion是开源ELN Chemotion的扩展，适应了多相催化的复杂工作流程;这些包括催化剂合成，设备和测试平台的调整，活性测量，材料表征(可能也在现场/operando，在大型设施)，并辅以数学建模和模拟。直接链接到元数据目录，如SciCat(用于同步加速器/中子表征)和先进的研究数据管理工具，如Adacta(用于改善催化数据、实验设置和相关资源的可追溯性)。通过cu基甲醇合成催化剂和贵金属基排放控制催化剂的实例，介绍了LabIMotion在催化领域的适应性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the Conference on Research Data Infrastructure

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