The wide range of battery systems: from micro- to structural batteries, from biodegradable to high performance batteries
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Published Version
Date
2025-05-14
Authors
Costa, Carlos M.
Salado, Manuel
Ferrara, Chiara
Ruffo, Riccardo
Mustarelli, Piercarlo
Mao, Rui
Feng, Sheng
Shang, Yuxiang
Wang, Xiaochen
Lei, Zhenkun
Journal Title
Journal ISSN
Volume Title
Publisher
Elsevier
Published Version
Abstract
Battery systems are essential components of the on-going energy transition and digitalization of society. With the need to power an increasing variety of portable and stationary systems, ranging from disposable point-of-care devices or smart packaging systems to applications in portable computers and electric cars, an increasing variety of batteries and battery systems are being developed, each aiming to specific sets of required performance parameters, including energy and power density, cycling stability, flexibility, degradability, environmental impact or improved integration into the specific application context. This work analyzed the state of the art of the different materials and geometries, performance parameters and applications of the different battery systems. We discuss the rationale behind each material selection, the processing technologies and the integration into the specific application, taking into account the whole life-cycle of the battery. Further, the main challenges posed for each battery type will provide a roadmap for their successful development and application.
Description
Keywords
Different battery systems , Smart capabilities , Circular Economy , Recycling issues
Citation
Costa, C.M., Salado, M., Ferrara, C., Ruffo, R., Mustarelli, P., Mao, R., Feng, S., Shang, Y., Wang, X., Lei, Z., Bai, R., Yan, C., Lee, K.-H., Kim, S.-W., Kim, T.-H., Lee, S.-Y., Kong, L., Zhang, Q., Devnani, H., Gupta, S., Rohan, J.F., Curtis, N.S., Lahiri, A., He, Y. and Lanceros-Mendez, S. (2025) ‘The wide range of battery systems: From micro- to structural batteries, from biodegradable to high performance batteries’, Progress in Materials Science, 154, 101506. https://doi.org/10.1016/j.pmatsci.2025.101506