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PAPER
Deep learning image segmentation for the reliable porosity measurement of high-capacity Ni-based oxide cathode secondary particles관리자2024-03-13 조회 660 댓글 0이메일주소 site@site.co.kr Author Hee-Beom Lee, Min-Hyoung Jung, Young-Hoon Kim, Eun-Byeol Park, Woo-Sung Jang, Seon-Je Kim, Ki-ju Choi, Ji-young Park, Kee-bum Hwang, Jae-Hyun Shim, Songhun Yoon, Young-Min Kim Journal Journal of Analytical Science and Technology Year of Pub. 2023
Deep learning image segmentation for the reliable porosity measurement of high-capacity Ni-based oxide cathode secondary particles
The optimization of geometrical pore control in high-capacity Ni-based cathode materials is required to enhance the cyclic performance of lithium-ion batteries. Enhanced porosity improves lithium-ion mobility by increasing the electrode–electrolyte contact area and reducing the number of ion diffusion pathways. However, excessive porosity can diminish capacity, thus necessitating optimizing pore distribution to compromise the trade-off relation. Accordingly, a statistically meaningful porosity estimation of electrode materials is required to engineer the local pore distribution inside the electrode particles. Conventional scanning electron microscopy (SEM) image-based porosity measurement can be used for this purpose. However, it is labor-intensive and subjected to human bias for low-contrast pore images, thereby potentially lowering measurement accuracy. To mitigate these difficulties, we propose an automated …첨부파일 101.PNG (102.48KB) [0] 2024-03-13 17:54:20 다음글 PEI/Super P Cathode Coating: A Pathway to Superior Lithium–Sulfur Battery Performance