Li/Garnet Interface Stabilization by Thermal-Decomposition Vapor Deposition of an Amorphous Carbon Layer

Feng Wuliang; Dong Xiaoli; Zhang Xiang; Lai Zhengzhe; Li Panlong; Wang Congxiao; Wang Yonggang; Xia Yongyao

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Li/Garnet Interface Stabilization by Thermal-Decomposition Vapor Deposition of an Amorphous Carbon Layer

机译：Li /石榴石界面通过热分解气相沉积无定形碳层稳定

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Applying interlayers is the main strategy to address the large area specific resistance (ASR) of Li/garnet interface. However, studies on eliminating the Li2CO3 and LiOH interfacial lithiophobic contaminants are still insufficient. Here, thermal-decomposition vapor deposition (TVD) of a carbon modification layer on Li6.75La3Zr1.75Ta0.25O12 (LLZTO) provides a contaminant-free surface. Owing to the protection of the carbon layer, the air stability of LLZTO is also improved. Moreover, owing to the amorphous structure of the low graphitized carbon (LGC), instant lithiation is achieved, and the ASR of the Li/LLZTO interface is reduced to 9 omega cm(2). Lithium volatilization and Zr4+ reduction are also controllable during TVD. Compared with its high graphitized carbon counterpart (HGC), the LGC-modified Li/LLZTO interface displays a higher critical current density of 1.2 mA cm(-2), as well as moderate Li plating and stripping, which provides enhanced polarization voltage stability.

机译：应用中间层是解决LI / GARNET接口的大面积电阻（ASR）的主要策略。然而，关于消除Li2CO3和LiOH界面岩性纤维蛋白污染物的研究仍然不足。这里，Li6.75LA3ZR1.75TA0.25O12（LLZTO）上的碳改性层的热分解气相沉积（TVD）提供无污染物表面。由于碳层的保护，LLZTO的空气稳定性也得到了改善。此外，由于低石墨化碳（LGC）的无定形结构，实现了即时锂化，并且Li / LLZTO界面的ASR降低至9ωcm（2）。锂挥发和Zr4 +还原在TVD期间也可控制。与其高石墨化碳对应物（HGC）相比，LGC改性的LI / LLZTO界面显示出1.2 mA cm（-2）的更高临界电流密度，以及适度的LI电镀和剥离，其提供增强的偏振电压稳定性。

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来源
《Angewandte Chemie》 |2020年第13期|共4页
作者
Feng Wuliang; Dong Xiaoli; Zhang Xiang; Lai Zhengzhe; Li Panlong; Wang Congxiao; Wang Yonggang; Xia Yongyao;
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作者单位

Fudan Univ Inst New Energy Collaborat Innovat Ctr Chem Energy Materials Dept Chem Shanghai Key Lab Mol Catalysis Shanghai Shanghai Peoples R China;

Fudan Univ Inst New Energy Collaborat Innovat Ctr Chem Energy Materials Dept Chem Shanghai Key Lab Mol Catalysis Shanghai Shanghai Peoples R China;

Fudan Univ Inst New Energy Collaborat Innovat Ctr Chem Energy Materials Dept Chem Shanghai Key Lab Mol Catalysis Shanghai Shanghai Peoples R China;

Fudan Univ Inst New Energy Collaborat Innovat Ctr Chem Energy Materials Dept Chem Shanghai Key Lab Mol Catalysis Shanghai Shanghai Peoples R China;

Fudan Univ Inst New Energy Collaborat Innovat Ctr Chem Energy Materials Dept Chem Shanghai Key Lab Mol Catalysis Shanghai Shanghai Peoples R China;

Fudan Univ Inst New Energy Collaborat Innovat Ctr Chem Energy Materials Dept Chem Shanghai Key Lab Mol Catalysis Shanghai Shanghai Peoples R China;

Fudan Univ Inst New Energy Collaborat Innovat Ctr Chem Energy Materials Dept Chem Shanghai Key Lab Mol Catalysis Shanghai Shanghai Peoples R China;

Fudan Univ Inst New Energy Collaborat Innovat Ctr Chem Energy Materials Dept Chem Shanghai Key Lab Mol Catalysis Shanghai Shanghai Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类应用化学;
关键词
amorphous materials; garnet electrolyte; graphitized carbon; lithium; solid-state batteries;

机译：非晶材料;石榴石电解质;石墨化碳;锂;固态电池;

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专利

1. Li/Garnet Interface Stabilization by Thermal-Decomposition Vapor Deposition of an Amorphous Carbon Layer [J] . Feng Wuliang, Dong Xiaoli, Zhang Xiang, Angewandte Chemie . 2020,第13期

机译：Li /石榴石界面通过热分解气相沉积无定形碳层稳定
2. Properties of Erbium Doped Hydrogenated Amorphous Carbon Layers Fabricated by Sputtering and Plasma Assisted Chemical Vapor Deposition [J] . I. Hüttel, J. Gurovi?, J. Oswald, Acta polytechnica . 2008,第1期

机译：溅射和等离子体辅助化学气相沉积制备掺Do氢化非晶碳层的性能
3. Properties of Erbium Doped Hydrogenated Amorphous Carbon Layers Fabricated by Sputtering and Plasma Assisted Chemical Vapor Deposition [J] . V. Prajzler, Z. Burian, V. Jerabek, Acta Polytechnica . 2008,第1期

机译：溅射和等离子体辅助化学气相沉积法制备掺Do氢化非晶碳层的性能
4. Growth of metal-free carbon nanotubes with amorphous carbon catalyst layer on glass substrates by microwave plasma enhanced chemical vapor deposition [C] . Jae Keun Seo, Ki-han Ko, Jaekwang Kim, Nanoelectronics Conference (INEC), 2010 . 2010

机译：通过微波等离子体增强化学气相沉积法在玻璃基板上生长具有非晶碳催化剂层的无金属碳纳米管
5. Characterization of amorphous silicon carbide and silicon carbonitride thin films synthesized by polymer-source chemical vapor deposition. Mechanical structural and metal-interface properties [D] . Awad, Yousef 2006

机译：通过聚合物源化学气相沉积合成的非晶碳化硅和碳氮化硅薄膜的表征。机械结构和金属界面性能
6. Chemical Vapor Deposition of Vertically Aligned Carbon Nanotube Arrays: Critical Effects of Oxide Buffer Layers [O] . Haohao Li, Guangjie Yuan, Bo Shan, 2019

机译：垂直对齐的碳纳米管阵列的化学气相沉积：氧化物缓冲层的关键影响。
7. Pore narrowing and formation of ultra thin yttria-stabilized zirconia layers in ceramic membranes by chemical vapor deposition/electrochemical vapor deposition [O] . Cao, G.Z., Cao, Guo-Zhong, Brinkman, Hendrik W., 1993

机译：通过化学气相沉积/电化学气相沉积在陶瓷膜中孔径变窄并形成氧化钇稳定的超薄氧化锆层
8. Amorphous Carbon Films as Planarization Layers Deposited by Plasma-Enhanced Chemical Vapor Deposition. [R] . Pang, S. W., Horn, M. W. 1990

机译：通过等离子体增强化学气相沉积沉积的无定形碳膜作为平面化层。

Li/Garnet Interface Stabilization by Thermal-Decomposition Vapor Deposition of an Amorphous Carbon Layer

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