Gao, Xuan; Liu, Kejiang; Su, Chang; Zhang, Wei; Dai, Yuhang; Parkin, Ivan P; Carmalt, Claire J; Gao, Xuan; Liu, Kejiang; Su, Chang; Zhang, Wei; Dai, Yuhang; Parkin, Ivan P; Carmalt, Claire J; He, Guanjie; - view fewer (2023) From bibliometric analysis: 3D printing design strategies and battery applications with a focus on zinc-ion batteries. SmartMat 10.1002/smm2.1197. (In press).

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Abstract

Three-dimensional (3D) printing has the potential to revolutionize the way energy storage devices are designed and manufactured. In this paper, we explore the use of 3D printing in the design and production of energy storage devices, especially zinc-ion batteries (ZIBs) and examine its potential advantages over traditional manufacturing methods. 3D printing could significantly improve the customization of ZIBs, making it a promising strategy for the future of energy storage. In particular, 3D printing allows for the creation of complex, customized geometries, and designs that can optimize the energy density, power density, and overall performance of batteries. Simultaneously, we discuss and compare the impact of 3D printing design strategies based on different configurations of film, interdigitation, and framework on energy storage devices with a focus on ZIBs. Additionally, 3D printing enables the rapid prototyping and production of batteries, reducing leading times and costs compared with traditional manufacturing methods. However, there are also challenges and limitations to consider, such as the need for further development of suitable 3D printing materials and processes for energy storage applications.

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