Colloidal processing of Li2S–P2S5 films fabricated via electrophoretic deposition methods and their characterization as a solid electrolyte for all solid state lithium ion batteries

Shota AZUMA; Kota AIYAMA; Go KAWAMURA; Hiroyuki MUTO; Takanori MIZUSHIMA; Tetsuo UCHIKOSHI; Atsunori MATSUDA

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Colloidal processing of Li2S–P2S5 films fabricated via electrophoretic deposition methods and their characterization as a solid electrolyte for all solid state lithium ion batteries

机译：通过电泳沉积方法制备的Li2S–P2S5膜的胶体处理及其表征，作为所有固态锂离子电池的固体电解质

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Li₂S–P₂S₅ (LPS) film was prepared using colloidal process by employing electrophoretic deposition (EPD) technique followed by warm pressing for advanced processing of all-solid-state lithium ion battery. LPS precursor film with positive surface charge was obtained from its suspension that was synthesized by liquid-phase shaking method. The homogeneous film with thickness of 10–100 μm was controllably prepared. Resulted LPS film exhibited high conductivity (1.98 × 10?4 S cm?1) at ambient temperature and significantly low activation energy (16.6 kJ mol?1) compared with conventional LPS materials. Thus, good solid–solid interfacial contact can be obtained in the sulfide-based ionic conductor by employing EPD process followed by warm pressing.

机译：Li _{2 S–P _{2 S _{5 （LPS）膜采用胶体工艺，通过电泳沉积（EPD）技术，然后热压制备用于全固态锂离子电池的先进处理。从其悬浮液获得了具有正表面电荷的LPS前体膜，该悬浮液是通过液相摇动法合成的。可以控制地制备厚度为10–100μm的均匀膜。所得的LPS薄膜在环境温度下显示出高电导率（1.98×10 ？4 S cm ？1 ），活化能极低（16.6 kJ mol ？1 ）与常规LPS材料相比。因此，通过采用EPD工艺然后进行热压，可以在基于硫化物的离子导体中获得良好的固-固界面接触。}}}

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《Journal of the Ceramic Society of Japan》 |2017年第4期|共6页
作者
Shota AZUMA; Kota AIYAMA; Go KAWAMURA; Hiroyuki MUTO; Takanori MIZUSHIMA; Tetsuo UCHIKOSHI; Atsunori MATSUDA;
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Colloidal processing of Li2S–P2S5 films fabricated via electrophoretic deposition methods and their characterization as a solid electrolyte for all solid state lithium ion batteries

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