The wide range of battery systems: From micro- to structural batteries, from biodegradable to high performance batteries

Carlos M. Costa; Manuel Salado; Chiara Ferrara; Riccardo Ruffo; Piercarlo Mustarelli; Rui Mao; Sheng Feng; Yuxiang Shang; Xiaochen Wang; Zhenkun Lei; Ruixiang Bai; Cheng Yan; Kwon Hyung Lee; Sang Woo Kim; Tae Hee Kim; Sang Young Lee; Long Kong; Qiang Zhang; Harsha Devnani; Shikha Gupta; James F. Rohan; Neil S. Curtis; Abhishek Lahiri; Yinghe He; S. Lanceros-Mendez

doi:10.1016/j.pmatsci.2025.101506

The wide range of battery systems: From micro- to structural batteries, from biodegradable to high performance batteries

Carlos M. Costa
, Manuel Salado
, Chiara Ferrara
, Riccardo Ruffo
, Piercarlo Mustarelli
, Rui Mao
, Sheng Feng
, Yuxiang Shang
, Xiaochen Wang
, Zhenkun Lei
, Ruixiang Bai
, Cheng Yan
, Kwon Hyung Lee
, Sang Woo Kim
, Tae Hee Kim
, Sang Young Lee
, Long Kong
, Qiang Zhang
, Harsha Devnani
, Shikha Gupta

James F. Rohan, Neil S. Curtis, Abhishek Lahiri, Yinghe He, S. Lanceros-Mendez

柔性电子研究院

University of Minho
BCMaterials
Ikerbasque Basque Foundation for Science
University of Milan - Bicocca
Dalian University of Technology
Queensland University of Technology
Korea Institute of Energy Research
Ulsan National Institute of Science and Technology
University of Ulsan
Yonsei University
Tsinghua University
Manav Rachna International University
University College Cork
Brunel University London

科研成果: 期刊稿件 › 文献综述 › 同行评审

14 引用（Scopus）

摘要

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.

源语言	英语
文章编号	101506
期刊	Progress in Materials Science
卷	154
DOI	https://doi.org/10.1016/j.pmatsci.2025.101506
出版状态	已出版 - 11月 2025

联合国可持续发展目标

此成果有助于实现下列可持续发展目标：

可持续发展目标 7 经济适用的清洁能源
可持续发展目标 8 体面工作和经济增长
可持续发展目标 12 负责任消费和生产

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10.1016/j.pmatsci.2025.101506

其它文件与链接

链接到 Scopus 的出版物

引用此

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., ... 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, 文章 101506. https://doi.org/10.1016/j.pmatsci.2025.101506

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title = "The wide range of battery systems: From micro- to structural batteries, from biodegradable to high performance batteries",

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.",

keywords = "Circular Economy, Different battery systems, Recycling issues, Smart capabilities",

author = "Costa, \{Carlos M.\} and Manuel Salado and Chiara Ferrara and Riccardo Ruffo and Piercarlo Mustarelli and Rui Mao and Sheng Feng and Yuxiang Shang and Xiaochen Wang and Zhenkun Lei and Ruixiang Bai and Cheng Yan and Lee, \{Kwon Hyung\} and Kim, \{Sang Woo\} and Kim, \{Tae Hee\} and Lee, \{Sang Young\} and Long Kong and Qiang Zhang and Harsha Devnani and Shikha Gupta and Rohan, \{James F.\} and Curtis, \{Neil S.\} and Abhishek Lahiri and Yinghe He and S. Lanceros-Mendez",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s)",

year = "2025",

month = nov,

doi = "10.1016/j.pmatsci.2025.101506",

language = "英语",

volume = "154",

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Costa, CM, Salado, M, Ferrara, C, Ruffo, R, Mustarelli, P, Mao, R, Feng, S, Shang, Y, Wang, X, Lei, Z, Bai, R, Yan, C, Lee, KH, Kim, SW, Kim, TH, Lee, SY, Kong, L, Zhang, Q, Devnani, H, Gupta, S, Rohan, JF, Curtis, NS, Lahiri, A, He, Y & 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, 卷 154, 101506. https://doi.org/10.1016/j.pmatsci.2025.101506

TY - JOUR

T1 - The wide range of battery systems

T2 - From micro- to structural batteries, from biodegradable to high performance batteries

AU - Costa, Carlos M.

AU - Salado, Manuel

AU - Ferrara, Chiara

AU - Ruffo, Riccardo

AU - Mustarelli, Piercarlo

AU - Mao, Rui

AU - Feng, Sheng

AU - Shang, Yuxiang

AU - Wang, Xiaochen

AU - Lei, Zhenkun

AU - Bai, Ruixiang

AU - Yan, Cheng

AU - Lee, Kwon Hyung

AU - Kim, Sang Woo

AU - Kim, Tae Hee

AU - Lee, Sang Young

AU - Kong, Long

AU - Zhang, Qiang

AU - Devnani, Harsha

AU - Gupta, Shikha

AU - Rohan, James F.

AU - Curtis, Neil S.

AU - Lahiri, Abhishek

AU - He, Yinghe

AU - Lanceros-Mendez, S.

PY - 2025/11

Y1 - 2025/11

N2 - 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.

AB - 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.

KW - Circular Economy

KW - Different battery systems

KW - Recycling issues

KW - Smart capabilities

UR - https://www.scopus.com/pages/publications/105005233313

U2 - 10.1016/j.pmatsci.2025.101506

DO - 10.1016/j.pmatsci.2025.101506

M3 - 文献综述

AN - SCOPUS:105005233313

SN - 0079-6425

VL - 154

JO - Progress in Materials Science

JF - Progress in Materials Science

M1 - 101506

ER -

The wide range of battery systems: From micro- to structural batteries, from biodegradable to high performance batteries

摘要

联合国可持续发展目标

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