Multifunctionalized Supramolecular Cyclodextrin Additives Boosting the Durability of Aqueous Zinc-Ion Batteries

Zhang, Zhaolong; Luo, Dan; Sun, Rongkun; Gao, Yizhan; Wang, Da; Li, Zhi; Kang, Xiaohong

doi:10.1021/acsami.4c01180

ACS Appl. Mater. Interfaces

2024

DOI: 10.1021/acsami.4c01180

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Multifunctionalized Supramolecular Cyclodextrin Additives Boosting the Durability of Aqueous Zinc-Ion Batteries

Zhaolong Zhang,

Dan Luo,

Rongkun Sun

et al.

Abstract: The poor cycling stability of aqueous zinc-ion batteries hinders their application in large-scale energy storage due to uncontrollable dendrite growth and harmful hydrogen evolution reactions. Here, we designed and synthesized an electrolyte additive, N-methylimidazolium-β-cyclodextrin p-toluenesulfonate (NMI-CDOTS). The cations of NMI-CD + are more easily adsorbed on the abrupt Zn surface to regulate the deposition of Zn 2+ and reduce dendrite generation under the combined action of the unique cavity structur… Show more

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Cited by 4 publications

References 48 publications

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Hofmeister Effects in Supramolecular Chemistry for Anion‐Modulation to Stabilize Zn Anode

Zhang,

Fu,

Chen

et al. 2024

Advanced Materials

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Aqueous Zn‐ion batteries (AZIBs) are considered as promising candidates for the next‐generation large‐scale energy storage, which, however, is facing the challenge of instable Zn anodes. The anion is pivotal in the stability of anodes, which are not being paid enough attention to. Herein, the modulation of anions is reported using the Hofmeister series in supramolecular chemistry to boost the stability of Zn anodes. It is found that the right‐side anions in the Hofmeister series (e.g., OTf−) can enhance the Zn2+ transference number, increase the Coulombic efficiency, facilitate uniform Zn deposition, reduce the freezing point of electrolytes, and thereby stabilize the Zn anodes. More importantly, the right‐side anions can form strong interaction with β‐cyclodextrin (β‐CD) compared to the left‐side anions, and hence the addition of β‐CD can further enhance the stability of Zn anodes in OTf−‐based electrolytes, showing enhancement of cycling lifespan in the Zn//Zn symmetric cells more than 45.5 times with β‐CD compared with those without β‐CD. On the contrary, the left‐side anions show worse rate performance after the addition of β‐CD. These results provide an effective and novel approach for choosing anions and matching additives to stabilize the anodes and achieve high‐performance AZIBs through the Hofmeister effect.

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Hofmeister Effects in Supramolecular Chemistry for Anion‐Modulation to Stabilize Zn Anode

Zhang,

Fu,

Chen

et al. 2024

Advanced Materials

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Exploring cyclodextrin-driven advancements in aqueous Zn-ion battery: A review

Abdelhay,

Bani-Yaseen

2025

Carbohydrate Polymers

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A versatile electrolyte additive enabling highly reversible Zn anode in aqueous zinc-ion batteries

Zhou,

Ma,

Yuan

et al. 2024

Journal of Energy Storage

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Multifunctionalized Supramolecular Cyclodextrin Additives Boosting the Durability of Aqueous Zinc-Ion Batteries

Cited by 4 publications

References 48 publications

Hofmeister Effects in Supramolecular Chemistry for Anion‐Modulation to Stabilize Zn Anode

Hofmeister Effects in Supramolecular Chemistry for Anion‐Modulation to Stabilize Zn Anode

Exploring cyclodextrin-driven advancements in aqueous Zn-ion battery: A review

A versatile electrolyte additive enabling highly reversible Zn anode in aqueous zinc-ion batteries

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