Molecular engineering of self-assembled monolayers for highly utilized Zn anodes

Stabilizing the Zn anode under high utilization rates is highly applauded yet very challenging in aqueous Zn batteries. Here, we rationally design a zincophilic short-chain aromatic molecule, 4-mercaptopyridine (4Mpy), to construct self-assembled monolayers (SAMs) on a copper substrate to achieve hi...

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Veröffentlicht in:eScience (Beijing) 2024-04, Vol.4 (2), p.100205, Article 100205
Hauptverfasser: Zhang, Lei, Xiao, Jin, Xiao, Xilin, Xin, Wenli, Geng, Yaheng, Yan, Zichao, Zhu, Zhiqiang
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Sprache:eng
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Zusammenfassung:Stabilizing the Zn anode under high utilization rates is highly applauded yet very challenging in aqueous Zn batteries. Here, we rationally design a zincophilic short-chain aromatic molecule, 4-mercaptopyridine (4Mpy), to construct self-assembled monolayers (SAMs) on a copper substrate to achieve highly utilized Zn anodes. We reveal that 4Mpy could be firmly bound on the Cu substrate via Cu–S bond to form compact and uniform SAMs, which could effectively isolate the water on the electrode surface and thus eliminate the water-related side reactions. In addition, the short-chain aromatic ring structure of 4Mpy could not only ensure the ordered arrangement of zincophilic pyridine N but also facilitate charge transfer, thus enabling uniform and rapid Zn deposition. Consequently, the Zn/4Mpy/Cu electrode not only enables the symmetric cell to stably cycle for over 180 ​h at 10 ​mA ​cm−2 under a high depth-of-discharge of 90%, but also allows the MnO2-paired pouch cell to survive for 100 cycles under a high Zn utilization rate of 78.8%. An anode-free 4Mpy/Cu||graphite cell also operates for 150 cycles without obvious capacity fading at 0.1 ​A ​g−1. This control of interfacial chemistry via SAMs to achieve high utilization rates of metal anodes provides a new paradigm for developing high-energy metal-based batteries. [Display omitted] •We proposed self-assembled monolayers of zincophilic short-chain aromatic molecules to develop highly utilized Zn anodes.•The Zn/4Mpy/Cu-based symmetric cell achieved an ultra-high Zn utilization of 90% and an operation of 200 ​h.•The Zn/4Mpy/Cu||MnO2 pouch cell achieved 100 stable cycles with a high Zn utilization of 78.8%.
ISSN:2667-1417
2667-1417
DOI:10.1016/j.esci.2023.100205