As global demand for electrochemical electrodes continues to rise, a new trend has emerged, emphasizing the need to maintain ion diffusion efficiency while accommodating ultra-high loadings of active materials to enhance capacity and energy density. In three-dimensional space, structured electrodes with high porosity and low tortuosity have proven effective in improving the performance of various electrochemical energy storage devices (EESDs). As global demand for electrochemical electrodes continues to rise, a new trend has emerged, emphasizing the need to maintain ion diffusion efficiency while accommodating ultra-high loadings of active materials to enhance capacity and energy density. In three-dimensional space, structured electrodes with high porosity and low tortuosity have proven effective in improving the performance of various electrochemical energy storage devices (EESDs). Nanophysics Nanomaterials Phys.org – latest science and technology news stories
Enhanced ion diffusion kinetics achieved through interpenetrated structures in electrochemical energy storage devices
