Enhancing Sodium-Ion Storage Capacity and Stability in Metal–Organic Coordination Compounds by Bifunctional Coordinated Water Molecule

Meihong Che , Jialong Jiang , Jiangtao Yu , Runhao Zhang , Zhonghan Wu , Ziheng Zhang , Tongrui Zhang , Weibo Hua , Yong Lu , Limin Zhou , Wei Shi , Kai Zhang , Jun Chen

Energy & Environmental Materials ›› 2025, Vol. 8 ›› Issue (3) : e12851

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Energy & Environmental Materials ›› 2025, Vol. 8 ›› Issue (3) : e12851 DOI: 10.1002/eem2.12851
RESEARCH ARTICLE

Enhancing Sodium-Ion Storage Capacity and Stability in Metal–Organic Coordination Compounds by Bifunctional Coordinated Water Molecule

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Abstract

Redox-active organic compounds have received much attention as high-capacity electrodes for rechargeable batteries. However, the high solubility in organic electrolytes during charge and discharge processes hinders the practical exploitation of organic compounds. This study presents a cobalt-based metal–organic coordination compound with bifunctional coordinated water (Co-MOC-H2O) for sodium-ion storage. The coordinated water enhances interactions between sodium ions and nitrogen atoms in organic ligands through chelation, activating the inert sodium-ion storage sites (C=N). Moreover, the stable hydrogen bonded framework formed by the coordinated water molecules prevents the active organic compounds from dissolving into the electrolyte, thereby enhancing cycling stability. With the bifunctional coordinated water molecules, the Co-MOC-H2O electrode delivers a high capacity of 403 mAh g–1 at 0.2 A g–1 over 600 cycles and exhibits a capacity retention of 77.9% at 2 A g–1 after 1100 cycles. This work highlights the crucial role of the coordinated water molecules in constructing high capacity and long-life sodium-ion storage materials.

Keywords

coordinated water / high capacity / hydrogen bonded framework / metal–organic coordination compounds / sodium-storage materials

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Meihong Che, Jialong Jiang, Jiangtao Yu, Runhao Zhang, Zhonghan Wu, Ziheng Zhang, Tongrui Zhang, Weibo Hua, Yong Lu, Limin Zhou, Wei Shi, Kai Zhang, Jun Chen. Enhancing Sodium-Ion Storage Capacity and Stability in Metal–Organic Coordination Compounds by Bifunctional Coordinated Water Molecule. Energy & Environmental Materials, 2025, 8(3): e12851 DOI:10.1002/eem2.12851

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References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]

C. Zhao, Q. Wang, Z. Yao, J. Wang, B. Sánchez-Lengeling, F. Ding, X. Qi, Y. Lu, X. Bai, B. Li, H. Li, A. Aspuru-Guzik, X. Huang, C. Delmas, M. Wagemaker, L. Chen, Y.-S. Hu, Science 2020, 370, 708.
[2]

J.-M. Tarascon, Joule 2020, 4, 1616.
[3]

Z. Wu, Y. Ni, S. Tan, E. Hu, L. He, J. Liu, M. Hou, P. Jiao, K. Zhang, F. Cheng, J. Chen, J. Am. Chem. Soc. 2023, 145, 9596.
[4]

H. Zhang, X. Zhai, X. Cao, Z. Liu, X. Tang, Z. Hu, H. Wang, Z. Wang, Y. Xu, W. He, W. Zheng, M. Zhou, Z. Sun, Energy Environ. Mater. 2024, 7, e12692.
[5]

Z. Pan, H. Chen, Y. Zeng, Y. Ding, X. Pu, Z. Chen, Energy Mater. 2023, 3, 300054.
[6]

H. Gao, K. Yin, Z. Guo, Y. Zhang, W. Ma, W. Yang, K. Sun, Z. Peng, Z. Zhang, Fundam. Res. 2021, 1, 408.
[7]

M. Cheng, S. Zheng, T. Sun, D. Li, W. Zhang, Z. Zha, Q. Sun, J. Tian, K. Zhang, Z. Tao, Nano Res. 2024, 17, 5095.
[8]

P. Poizot, J. Gaubicher, S. Renault, L. Dubois, Y. Liang, Y. Yao, Chem. Rev. 2020, 120, 6490.
[9]

Y. Lu, Y. Cai, Q. Zhang, J. Chen, Adv. Mater. 2022, 34, 2104150.
[10]

H. Fan, K. Liu, X. Zhang, Y. Di, P. Liu, J. Li, B. Hu, H. Li, M. Ravivarma, J. Song, eScience 2024, 4, 100202.
[11]

Y. Wang, C. Wang, Z. Ni, Y. Gu, B. Wang, Z. Guo, Z. Wang, D. Bin, J. Ma, Y. Wang, Adv. Mater. 2020, 32, 2000338.
[12]

R. Wang, M. Shi, L. Li, Y. Zhao, L. Zhao, C. Yan, Chem. Eng. J. 2023, 451, 138652.
[13]

Y. Lu, Q. Zhang, J. Chen, CCS Chem. 2023, 5, 1491.
[14]

L. Zhou, S. Jo, M. Park, L. Fang, K. Zhang, Y. Fan, Z. Hao, Y.-M. Kang, Adv. Energy Mater. 2021, 11, 2003054.
[15]

F. Lang, J. Pang, X.-H. Bu, eScience 2024, 4, 100231.
[16]

M. Yang, X. Zeng, M. Xie, Y. Wang, J.-M. Xiao, R.-H. Chen, Z.-J. Yi, Y.-F. Huang, D.-S. Bin, D. Li, J. Am. Chem. Soc. 2024, 146, 6753.
[17]

X. Huang, S. Fu, C. Lin, Y. Lu, M. Wang, P. Zhang, C. Huang, Z. Li, Z. Liao, Y. Zou, J. Li, S. Zhou, M. Helm, P. S. Petkov, T. Heine, M. Bonn, H. I. Wang, X. Feng, R. Dong, J. Am. Chem. Soc. 2023, 145, 2430.
[18]

Z. Ye, Y. Jiang, L. Li, F. Wu, R. Chen, eScience 2023, 3, 100107.
[19]

Y. Fan, Z. Chang, Z. Wu, Y. Feng, X. Du, M. Che, J. Tian, W. Xie, K. Zhang, Adv. Funct. Mater. 2024, 34, 2314288.
[20]

R. Zhang, Y. Feng, Y. Ni, B. Zhong, M. Peng, T. Sun, S. Chen, H. Wang, Z. Tao, K. Zhang, Angew. Chem. Int. Ed. 2023, 62, e202304503.
[21]

Z. Liu, F. Zheng, W. Xiong, X. Li, A. Yuan, H. Pang, SmartMat 2021, 2, 488.
[22]

B. Wang, J. Li, M. Ye, Y. Zhang, Y. Tang, X. Hu, J. He, C. Li, Adv. Funct. Mater. 2022, 32, 2112072.
[23]

L. Wang, Y. Ni, X. Hou, L. Chen, F. Li, J. Chen, Angew. Chem. Int. Ed. 2020, 59, 22126.
[24]

S. Dong, L. Wu, M. Xue, Z. Li, D. Xiao, C. Xu, L. Shen, X. Zhang, ACS Appl. Energy Mater. 2021, 4, 1568.
[25]

Z. Wang, Z. Du, Y. Liu, C. E. Knapp, Y. Dai, J. Li, W. Zhang, R. Chen, F. Guo, W. Zong, X. Gao, J. Zhu, C. Wei, G. He, eScience 2023, 4, 100189.
[26]

P. Geng, M. Du, X. Guo, H. Pang, Z. Tian, P. Braunstein, Q. Xu, Energy Environ. Mater. 2022, 5, 599.
[27]

N. Nobakht, S. A. Etghani, M. Hosseini, S. H. Aboutalebi, J. Energy Chem. 2024, 97, 388.
[28]

J. Liu, J. Jiang, Q. Zhou, Z. Chen, R. Zhang, X. Xu, X. Han, S. Yang, Z. Zhou, P. Cheng, W. Shi, eScience 2023, 3, 100094.
[29]

J. Jiang, R. Zhang, T. Sun, J. Guo, J. Liu, P. Cheng, W. Shi, Inorg. Chem. 2023, 62, 16609.
[30]

Y. Wu, X. Mao, M. Zhang, X. Zhao, R. Xue, S. Di, W. Huang, L. Wang, Y. Li, Y. Li, Adv. Mater. 2021, 33, 2106079.
[31]

J. Jiang, H. Liu, Z. Chen, R. Zhang, J. Guo, X. Xu, P. Cheng, W. Shi, Chem. Asia. J. 2023, 18, e202300310.
[32]

M. Li, X. Wang, J. Meng, C. Zuo, B. Wu, C. Li, W. Sun, L. Mai, Adv. Mater. 2024, 36, 2308628.
[33]

J. Du, J. Ren, M. Shu, X. Xu, Z. Niu, W. Shi, R. Si, P. Cheng, Angew. Chem. Int. Ed. 2021, 60, 4142.
[34]

Q. Zhang, Y. Ma, Y. Lu, L. Li, F. Wan, K. Zhang, J. Chen, Nat. Commun. 2020, 11, 4463.
[35]

Y. Shi, R. Wang, S. Bi, M. Yin, L. Liu, Z. Niu, Adv. Funct. Mater. 2023, 24, 2214546.
[36]

R. Zhang, Y. Li, L. Qiao, D. Li, J. Deng, J. Zhou, L. Xie, Y. Hou, T. Wang, W. Tian, J. Cao, F. Cheng, B. Yang, K. Liang, P. Chen, B. Kong, Energy Storage Mater. 2021, 37, 123.
[37]

D. Lin, Y. Liu, Y. Li, Y. Li, A. Pei, J. Xie, W. Huang, Y. Cui, Nat. Chem. 2019, 11, 382.
[38]

E. W. C. Spotte-Smith, R. L. Kam, D. Barter, X. Xie, T. Hou, S. Dwaraknath, S. M. Blau, K. A. Persson, ACS Energy Lett. 2022, 7, 1446.
[39]

J. Liu, D. Xie, X. Xu, L. Jiang, R. Si, W. Shi, P. Cheng, Nat. Commun. 2021, 12, 3131.
[40]

J. Qian, W. A. Henderson, W. Xu, P. Bhattacharya, M. Engelhard, O. Borodin, J.-G. Zhang, Nat. Commun. 2015, 6, 6362.
[41]

S. Jurng, Z. L. Brown, J. Kim, B. L. Lucht, Energy Environ. Sci. 2018, 11, 2600.
[42]

S. Zhang, J. Wang, K. Chen, X. Pu, H. Zhu, Y. Zhao, A. Zhao, X. Chen, Y. Fang, Z. Chen, Y. Cao, Angew. Chem. Int. Ed. 2024, 63, e202317439.
[43]

C. Luo, G.-L. Xu, X. Ji, S. Hou, L. Chen, F. Wang, J. Jiang, Z. Chen, Y. Ren, K. Amine, C. Wang, Angew. Chem. Int. Ed. 2018, 57, 2879.
[44]

J. Bai, B. Xi, H. Mao, Y. Lin, X. Ma, J. Feng, S. Xiong, Adv. Mater. 2018, 30, 1802310.
[45]

T. Sun, Z. Li, H. Wang, D. Bao, F. Meng, X. Zhang, Angew. Chem. Int. Ed. 2016, 55, 10662.
[46]

Y. She, X. Li, Y. Zheng, D. Chen, X. Rui, X. Lin, Y. Qin, Energy Environ. Mater. 2024, 7, e12538.
[47]

Q. Zhao, Z. Tu, S. Wei, K. Zhang, S. Choudhury, X. Liu, L. A. Archer, Angew. Chem. Int. Ed. 2018, 57, 992.
[48]

T. Sun, Z. Yi, W. Zhang, Q. Nian, H. J. Fan, Z. Tao, Adv. Funct. Mater. 2023, 33, 2306675.
[49]

S. Zheng, D. Shi, T. Sun, L. Zhang, W. Zhang, Y. Li, Z. Guo, Z. Tao, J. Chen, Angew. Chem. Int. Ed. 2023, 62, e202217710.

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2024 The Author(s). Energy & Environmental Materials published by John Wiley & Sons Australia, Ltd on behalf of Zhengzhou University.

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