Graphene Oxide‐Based Electrode Inks for 3D‐Printed Lithium‐Ion Batteries | Zendy

Fu Kun | Zendy; Wang Yibo | Zendy; Yan Chaoyi | Zendy; Yao Yonggang | Zendy; Chen Yanan | Zendy; Dai Jiaqi | Zendy; Lacey Steven | Zendy; Wang Yanbin | Zendy; Wan Jiayu | Zendy; Li Tian | Zendy; Wang Zhengyang | Zendy; Xu Yue | Zendy; Hu Liangbing | Zendy

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Graphene Oxide‐Based Electrode Inks for 3D‐Printed Lithium‐Ion Batteries

Author(s) -

Fu Kun,

Wang Yibo,

Yan Chaoyi,

Yao Yonggang,

Chen Yanan,

Dai Jiaqi,

Lacey Steven,

Wang Yanbin,

Wan Jiayu,

Li Tian,

Wang Zhengyang,

Xu Yue,

Hu Liangbing

Publication year - 2016

Publication title -

advanced materials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 10.707

H-Index - 527

eISSN - 1521-4095

pISSN - 0935-9648

DOI - 10.1002/adma.201505391

Subject(s) - materials science , graphene , electrode , fabrication , electrolyte , battery (electricity) , lithium (medication) , oxide , energy storage , nanotechnology , composite number , polymer , composite material , medicine , power (physics) , chemistry , alternative medicine , physics , pathology , quantum mechanics , endocrinology , metallurgy

All‐component 3D‐printed lithium‐ion batteries are fabricated by printing graphene‐oxide‐based composite inks and solid‐state gel polymer electrolyte. An entirely 3D‐printed full cell features a high electrode mass loading of 18 mg cm −2 , which is normalized to the overall area of the battery. This all‐component printing can be extended to the fabrication of multidimensional/multiscale complex‐structures of more energy‐storage devices.

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