Issue 7, 2023

Capacity-prediction models for organic anode-active materials of lithium-ion batteries: advances in predictors using small data

Abstract

Organic energy storage has attracted a lot of interest in enhancing performance and reducing the consumption of resources. If performance predictors are prepared, the exploration of new compounds can be accelerated without consumption of time, energy, and effort. In the present work, a new straightforward capacity predictor is constructed for the exploration of organic anode-active materials. Sparse modeling for small data (SpM-S) combining machine learning (ML) and our chemical insights was used to construct linear regression models of specific capacity. In our previous work, two predictors (models G1 and G2) were prepared using small datasets. However, the descriptors and prediction accuracy of these models were not validated. In the present work, a new improved model (model G3) has been constructed with the addition of new data. These three models were studied in terms of data science: namely, prediction accuracy, validity of the descriptors, amount of training data used, and effect of ML algorithms. The straightforward, generalizable, and interpretable model G3 can be applied to explore new organic anode-active materials. Moreover, these data-scientific approaches to model construction and validation can be used to explore new energy-related materials even with small data.

Graphical abstract: Capacity-prediction models for organic anode-active materials of lithium-ion batteries: advances in predictors using small data

Supplementary files

Article information

Article type
Paper
Submitted
13 Api. 2023
Accepted
16 Mai. 2023
First published
17 Mai. 2023
This article is Open Access
Creative Commons BY license

Energy Adv., 2023,2, 1014-1021

Capacity-prediction models for organic anode-active materials of lithium-ion batteries: advances in predictors using small data

H. Tobita, Y. Namiuchi, T. Komura, H. Imai, K. Obinata, M. Okada, Y. Igarashi and Y. Oaki, Energy Adv., 2023, 2, 1014 DOI: 10.1039/D3YA00161J

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