| Zhang, Wenyao; Yao, Qiushi; Wang, Chao; Feng, Renfei; Chen, Ning et al. (2023). Taming Zn Electrochemistry with Carbon Nitride: Atomically Gradient Interphase for Highly Reversible Aqueous Zn Batteries. Advanced Functional Materials , 2303590. 10.1002/adfm.202303590. |
BMIT-BM, HXMA, VESPERS |
Peer-Reviewed Article |
Materials |
| Zhang, Wenyao; Yao, Qiushi; Wang, Chao; Feng, Renfei; Chen, Ning et al. (2023). Taming Zn Electrochemistry with Carbon Nitride: Atomically Gradient Interphase for Highly Reversible Aqueous Zn Batteries. Advanced Functional Materials , 2303590. 10.1002/adfm.202303590. |
BMIT-BM, HXMA, VESPERS |
Peer-Reviewed Article |
Materials |
| Zhang, Wenyao; Yao, Qiushi; Wang, Chao; Feng, Renfei; Chen, Ning et al. (2023). Taming Zn Electrochemistry with Carbon Nitride: Atomically Gradient Interphase for Highly Reversible Aqueous Zn Batteries. Advanced Functional Materials , 2303590. 10.1002/adfm.202303590. |
BMIT-BM, HXMA, VESPERS |
Peer-Reviewed Article |
Materials |
| Zhang, Wenyao; Dong, Muyao; Jiang, Keren; Yang, Diling; Tan, Xuehai et al. (2022). Self-repairing interphase reconstructed in each cycle for highly reversible aqueous zinc batteries. Nature Communications 13(1) . 10.1038/s41467-022-32955-0. |
BXDS-WHE, HXMA, VESPERS |
Peer-Reviewed Article |
Materials |
| Zhang, Wenyao; Dong, Muyao; Jiang, Keren; Yang, Diling; Tan, Xuehai et al. (2022). Self-repairing interphase reconstructed in each cycle for highly reversible aqueous zinc batteries. Nature Communications 13(1) . 10.1038/s41467-022-32955-0. |
BXDS-WHE, HXMA, VESPERS |
Peer-Reviewed Article |
Materials |
| Zhang, Wenyao; Dong, Muyao; Jiang, Keren; Yang, Diling; Tan, Xuehai et al. (2022). Real-Time Reconstructed Interphase Enables Reversible Aqueous Zinc Battery Chemistries. SSRN Electronic Journal . 10.2139/ssrn.4013048. |
HXMA |
Peer-Reviewed Article |
Materials |
| Zhang, Wenyao; Dong, Muyao; Jiang, Keren; Yang, Diling; Tan, Xuehai et al. (2022). Self-repairing interphase reconstructed in each cycle for highly reversible aqueous zinc batteries. Nature Communications 13(1) . 10.1038/s41467-022-32955-0. |
BXDS-WHE, HXMA, VESPERS |
Peer-Reviewed Article |
Materials |
| Zhang, Weiran; Koverga, Volodymyr; Liu, Sufu; Zhou, Jigang; Wang, Jian et al. (2024). Single-phase local-high-concentration solid polymer electrolytes for lithium-metal batteries. Nature Energy . 10.1038/s41560-023-01443-0. |
SM |
Peer-Reviewed Article |
Materials |
| Zhang, Shumin; Zhao, Feipeng; Chen, Jiatang; Fu, Jiamin; Luo, Jing et al. (2023). A family of oxychloride amorphous solid electrolytes for long-cycling all-solid-state lithium batteries. Nature Communications 14, 3780. 10.1038/s41467-023-39197-8. |
SXRMB, VESPERS |
Peer-Reviewed Article |
Materials |
| Zhang, Shumin; Zhao, Feipeng; Chen, Jiatang; Fu, Jiamin; Luo, Jing et al. (2023). A family of oxychloride amorphous solid electrolytes for long-cycling all-solid-state lithium batteries. Nature Communications 14, 3780. 10.1038/s41467-023-39197-8. |
SXRMB, VESPERS |
Peer-Reviewed Article |
Materials |
| Zhang, Shumin; Zhao, Feipeng; Chang, Lo-Yueh; Chuang, Yu-Chun; Zhang, Zhen et al. (2024). Amorphous Oxyhalide Matters for Achieving Lithium Superionic Conduction. Journal of the American Chemical Society 146(5) , 2977-2985. 10.1021/jacs.3c07343. |
BXDS-WHE |
Peer-Reviewed Article |
Materials |
| Zhangsen Chen (2023). Catalyst Design at Atomic Level for the Electrochemical Carbon Dioxide Reduction. Supervisor: Sun, Shuhui. Québec, Canada: Institut national de la recherche scientifique-Centre Énergie Matériauxet Télécommunications. https://espace.inrs.ca/id/eprint/13793/1/Chen-Z-D-Mai2023.pdf. |
BIOXAS, HXMA, REIXS, SGM, SXRMB |
Doctoral Thesis |
Materials |
| Zhangsen Chen (2023). Catalyst Design at Atomic Level for the Electrochemical Carbon Dioxide Reduction. Supervisor: Sun, Shuhui. Québec, Canada: Institut national de la recherche scientifique-Centre Énergie Matériauxet Télécommunications. https://espace.inrs.ca/id/eprint/13793/1/Chen-Z-D-Mai2023.pdf. |
BIOXAS, HXMA, REIXS, SGM, SXRMB |
Doctoral Thesis |
Materials |
| Zhangsen Chen (2023). Catalyst Design at Atomic Level for the Electrochemical Carbon Dioxide Reduction. Supervisor: Sun, Shuhui. Québec, Canada: Institut national de la recherche scientifique-Centre Énergie Matériauxet Télécommunications. https://espace.inrs.ca/id/eprint/13793/1/Chen-Z-D-Mai2023.pdf. |
BIOXAS, HXMA, REIXS, SGM, SXRMB |
Doctoral Thesis |
Materials |
| Zhangsen Chen (2023). Catalyst Design at Atomic Level for the Electrochemical Carbon Dioxide Reduction. Supervisor: Sun, Shuhui. Québec, Canada: Institut national de la recherche scientifique-Centre Énergie Matériauxet Télécommunications. https://espace.inrs.ca/id/eprint/13793/1/Chen-Z-D-Mai2023.pdf. |
BIOXAS, HXMA, REIXS, SGM, SXRMB |
Doctoral Thesis |
Materials |