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Lithium‐Ion Batteries: All‐Nanomat Lithium‐Ion Batteries: A New Cell Architecture Platform for Ultrahigh Energy Density and Mechanical Flexibility (Adv. Energy Mater. 22/2017)
Advanced Energy Materials ( IF 27.8 ) Pub Date : 2017-11-22 , DOI: 10.1002/aenm.201770125 Ju-Myung Kim 1 , Jeong A. Kim 1 , Seung-Hyeok Kim 1 , In Sung Uhm 2 , Sung Joong Kang 2 , Guntae Kim 1 , Sun-Young Lee 3 , Sun-Hwa Yeon 4 , Sang-Young Lee 1
Advanced Energy Materials ( IF 27.8 ) Pub Date : 2017-11-22 , DOI: 10.1002/aenm.201770125 Ju-Myung Kim 1 , Jeong A. Kim 1 , Seung-Hyeok Kim 1 , In Sung Uhm 2 , Sung Joong Kang 2 , Guntae Kim 1 , Sun-Young Lee 3 , Sun-Hwa Yeon 4 , Sang-Young Lee 1
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All‐nanomat (Si anode/Al2O3 separator/OLO cathode) LIB full cells based on 1D building elements‐interweaved heteronanomat skeletons are presented as a simple and versatile platform technology for advanced power sources by Sang‐Young Lee and co‐workers in article number 1701099. The well‐tailored heteronanomat cell architecture allows for formation of 3D‐bicontinuous ion/electron transport pathways and elimination of metallic foil current collectors, resulting in exceptional improvements in the energy density and in mechanical deformability which lie far beyond those achievable with conventional LIB technologies.
中文翻译:
锂离子电池:全纳诺玛特锂离子电池:用于超高能量密度和机械柔韧性的新型电池架构平台(Adv。Energy Mater。22/2017)
Sang-Young Lee及其同事将基于一维建筑元素交织的异纳米瘤骨架的全纳米瘤(Si阳极/ Al 2 O 3隔板/ OLO阴极)LIB全电池作为一种简单而通用的平台技术展示给先进电源文章编号1701099中。精心设计的异质纳米细胞结构可形成3D双连续离子/电子传输路径并消除金属箔集电器,从而极大地改善了能量密度和机械变形能力,这远远超出了可实现的范围。使用传统的LIB技术。
更新日期:2017-11-22
中文翻译:
锂离子电池:全纳诺玛特锂离子电池:用于超高能量密度和机械柔韧性的新型电池架构平台(Adv。Energy Mater。22/2017)
Sang-Young Lee及其同事将基于一维建筑元素交织的异纳米瘤骨架的全纳米瘤(Si阳极/ Al 2 O 3隔板/ OLO阴极)LIB全电池作为一种简单而通用的平台技术展示给先进电源文章编号1701099中。精心设计的异质纳米细胞结构可形成3D双连续离子/电子传输路径并消除金属箔集电器,从而极大地改善了能量密度和机械变形能力,这远远超出了可实现的范围。使用传统的LIB技术。
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