@article{CTT100898669, author = {Yuxiang Li and Subin Song and Hanseul Kim and Kuniharu Nomoto and Hanvin Kim and Xueying Sun and Satoshi Hori and Kota Suzuki and Naoki Matsui and Masaaki Hirayama and Teruyasu Mizoguchi and Takashi Saito and Takashi Kamiyama and Ryoji Kanno}, title = {A lithium superionic conductor for millimeter-thick battery electrode}, journal = {Science}, year = 2023, } @article{CTT100898562, author = {Subin Song and Satoshi Hori and Yuxiang Li and Kota Suzuki and Naoki Matsui and Masaaki Hirayama and Takashi Saito and Takashi Kamiyama and Ryoji Kanno}, title = {Material Search for a Li10GeP2S12-Type Solid Electrolyte in the Li–P–S–X (X = Br, I) System via Clarification of the Composition–Structure–Property Relationships}, journal = {Chemistry of Materials}, year = 2022, } @article{CTT100864831, author = {Xueying Sun and Yuto Yamada and Satoshi Hori and Yuxiang Li and Kota Suzuki and Masaaki Hirayama and Ryoji Kanno}, title = {Discharge voltage profile changes via physicochemical phenomena in cycled all-solid-state cells based on Li10GeP2S12 and LiNbO3-coated LiCoO2}, journal = {Journal of Materials Chemistry A}, year = 2021, } @article{CTT100846851, author = {Xueying Sun and Satoshi Hori and Yuxiang Li and Yuto Yamada and Kota Suzuki and Masaaki Hirayama and Ryoji Kanno}, title = {Annealing-induced evolution at the LiCoO2/LiNbO3 interface and its functions in all-solid-state batteries with a Li10GeP2S12 electrolyte}, journal = {Journal of Materials Chemistry A}, year = 2021, } @article{CTT100841629, author = {Yuxiang Li and Shugo Daikuhara and Satoshi Hori and Xueying Sun and Kota Suzuki and Masaaki Hirayama and Ryoji Kanno}, title = {Oxygen Substitution for Li–Si–P–S–Cl Solid Electrolytes toward Purified Li10GeP2S12-Type Phase with Enhanced Electrochemical Stabilities for All-Solid-State Batteries}, journal = {Chemistry of Materials}, year = 2020, } @inproceedings{CTT100858436, author = {Yuxiang Li and Satoshi Hori and Kota Suzuki and Masaaki Hirayama and Ryoji Kanno}, title = {Oxygen-substitution of solid electrolytes towards the purified Li10GeP2S12-type structurein Li-Si-P-S-Cl systems}, booktitle = {}, year = 2021, } @inproceedings{CTT100817239, author = {Satoshi Hori and Yuxiang Li and Daiki Hayashi and Xueying Sun and Kouta Suzuki and Masaaki Hirayama and Ryoji KANNO}, title = {Synthesis, Structure, and Electrochemical Properties of Anion-Doped Li10GeP2S12-Type Solid Electrolyte in the Li–Si–P–S System}, booktitle = {}, year = 2019, } @inproceedings{CTT100811751, author = {Yuxiang LI and Satoshi HORI and Kota SUZUKI and Masaaki HIRAYAMA and Ryoji KANNO}, title = {Synthesis of anion-doped solid electrolytes in the Li– Si– P– S system}, booktitle = {}, year = 2019, } @inproceedings{CTT100836675, author = {Satoshi Hori and Yuxiang Li and Daiki Hayashi and Xueying Sun and Kota Suzuki and Masaaki Hirayama and Ryoji Kanno}, title = {Anion-doping effects on Li10GeP2S12-type phase in the Li–Si–P–S system}, booktitle = {}, year = 2019, } @inproceedings{CTT100823422, author = {堀 智 and Li Yuxiang and 林 大稀 and 大工原 秀吾 and 鈴木 耕太 and 平山 雅章 and 菅野 了次}, title = {Li10GeP2S12型構造のLi-Si-P-S系固体電解質へのアニオン添加}, booktitle = {}, year = 2019, } @misc{CTT100887340, author = {Yuxiang Li}, title = {Material search and characterization of lithium conductors: Highly conductive Li10GeP2S12-type Li–M–P–S–X–O phase (M = Si, Ge, Sn; X = F, Cl, Br, I) and electrochemically stable Li–P–S phase}, year = 2021, } @misc{CTT100887341, author = {Yuxiang Li}, title = {Material search and characterization of lithium conductors: Highly conductive Li10GeP2S12-type Li–M–P–S–X–O phase (M = Si, Ge, Sn; X = F, Cl, Br, I) and electrochemically stable Li–P–S phase}, year = 2021, } @misc{CTT100887337, author = {Yuxiang Li}, title = {Material search and characterization of lithium conductors: Highly conductive Li10GeP2S12-type Li–M–P–S–X–O phase (M = Si, Ge, Sn; X = F, Cl, Br, I) and electrochemically stable Li–P–S phase}, year = 2021, } @misc{CTT100887339, author = {Yuxiang Li}, title = {Material search and characterization of lithium conductors: Highly conductive Li10GeP2S12-type Li–M–P–S–X–O phase (M = Si, Ge, Sn; X = F, Cl, Br, I) and electrochemically stable Li–P–S phase}, year = 2021, } @misc{CTT100906885, author = {菅野了次 and 堀智 and LIYUXIANG}, title = {硫化物固体電解質材料}, howpublished = {公開特許}, year = 2023, month = {}, note = {PCT/JP2023/001743(2023/01/20), WO 2023/162531(2023/08/31)} } @phdthesis{CTT100887340, author = {Yuxiang Li}, title = {Material search and characterization of lithium conductors: Highly conductive Li10GeP2S12-type Li–M–P–S–X–O phase (M = Si, Ge, Sn; X = F, Cl, Br, I) and electrochemically stable Li–P–S phase}, school = {東京工業大学}, year = 2021, } @phdthesis{CTT100887341, author = {Yuxiang Li}, title = {Material search and characterization of lithium conductors: Highly conductive Li10GeP2S12-type Li–M–P–S–X–O phase (M = Si, Ge, Sn; X = F, Cl, Br, I) and electrochemically stable Li–P–S phase}, school = {東京工業大学}, year = 2021, } @phdthesis{CTT100887337, author = {Yuxiang Li}, title = {Material search and characterization of lithium conductors: Highly conductive Li10GeP2S12-type Li–M–P–S–X–O phase (M = Si, Ge, Sn; X = F, Cl, Br, I) and electrochemically stable Li–P–S phase}, school = {東京工業大学}, year = 2021, } @phdthesis{CTT100887339, author = {Yuxiang Li}, title = {Material search and characterization of lithium conductors: Highly conductive Li10GeP2S12-type Li–M–P–S–X–O phase (M = Si, Ge, Sn; X = F, Cl, Br, I) and electrochemically stable Li–P–S phase}, school = {東京工業大学}, year = 2021, }