A corpus of CO2 electrocatalytic reduction process extracted from the scientific literature

The electrocatalytic CO 2 reduction process has gained enormous attention for both environmental protection and chemicals production. Thereinto, the design of new electrocatalysts with high activity and selectivity can draw inspiration from the abundant scientific literature. An annotated and verifi...

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Bibliographic Details
Published in:Scientific data 2023-03, Vol.10 (1), p.175-175, Article 175
Main Authors: Wang, Ludi, Gao, Yang, Chen, Xueqing, Cui, Wenjuan, Zhou, Yuanchun, Luo, Xinying, Xu, Shuaishuai, Du, Yi, Wang, Bin
Format: Article
Language:English
Subjects:
639/301/299/886
639/705/1046
Annotations
Carbon dioxide
Chemistry
Data Descriptor
Data mining
Datasets
Efficiency
Electrolytes
Energy consumption
Environmental protection
Humanities and Social Sciences
Machine learning
Metadata
multidisciplinary
Natural language processing
Pipelines
Publishing industry
Science
Science (multidisciplinary)
Subject specialists
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Summary:The electrocatalytic CO 2 reduction process has gained enormous attention for both environmental protection and chemicals production. Thereinto, the design of new electrocatalysts with high activity and selectivity can draw inspiration from the abundant scientific literature. An annotated and verified corpus made from massive literature can assist the development of natural language processing (NLP) models, which can offer insight to help guide the understanding of these underlying mechanisms. To facilitate data mining in this direction, we present a benchmark corpus of 6,086 records manually extracted from 835 electrocatalytic publications, along with an extended corpus with 145,179 records in this article. In this corpus, nine types of knowledge such as material, regulation method, product, faradaic efficiency, cell setup, electrolyte, synthesis method, current density, and voltage are provided by either annotating or extracting. Machine learning algorithms can be applied to the corpus to help scientists find new and effective electrocatalysts. Furthermore, researchers familiar with NLP can use this corpus to design domain-specific named entity recognition (NER) models.
ISSN:2052-4463
2052-4463
DOI:10.1038/s41597-023-02089-z