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Three‐dimensional printing of high‐mass loading electrodes for energy storage applications
2021
InfoMat
Nanostructured materials afford a promising potential for many energy storage applications because of their extraordinary electrochemical properties. However, the remarkable electrochemical energy storage performance could only be harvested at a relatively low mass-loading via the traditional electrode fabrication process, and the scale of these materials into commercial-level mass-loading remains a daunting challenge because the ion diffusion kinetics deteriorates rapidly along with the
doi:10.1002/inf2.12181
fatcat:cwd565y2sjbzbd472ja6loc6g4