Mechanochemical strategy assisted morphology recombination of COFs for promoted kinetics and LiPS transformation in Li-S batteries

Yunchen Ge; Yan Meng; Lin Liu; Jianming Li; Xuechun Huang; Dan Xiao

doi:10.1016/j.gee.2023.03.005

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Yunchen Ge, Yan Meng, Lin Liu, Jianming Li, Xuechun Huang, Dan Xiao. Mechanochemical strategy assisted morphology recombination of COFs for promoted kinetics and LiPS transformation in Li-S batteries. Green Energy&Environment. doi: 10.1016/j.gee.2023.03.005

Citation:

Yunchen Ge, Yan Meng, Lin Liu, Jianming Li, Xuechun Huang, Dan Xiao. Mechanochemical strategy assisted morphology recombination of COFs for promoted kinetics and LiPS transformation in Li-S batteries. Green Energy&Environment. doi: 10.1016/j.gee.2023.03.005

Citation:

Yunchen Ge, Yan Meng, Lin Liu, Jianming Li, Xuechun Huang, Dan Xiao. Mechanochemical strategy assisted morphology recombination of COFs for promoted kinetics and LiPS transformation in Li-S batteries. Green Energy&Environment. doi: 10.1016/j.gee.2023.03.005

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Mechanochemical strategy assisted morphology recombination of COFs for promoted kinetics and LiPS transformation in Li-S batteries

doi: 10.1016/j.gee.2023.03.005

Yunchen Ge^a,
Yan Meng^{a
,
,},
Lin Liu^b,
Jianming Li^a,
Xuechun Huang^b,
Dan Xiao^{a,b
,
,}

Abstract

Abstract

A covalent organic frameworks (COFs) material with regular pores and stable structure can be used as the host of lithium-sulfur batteries to improve battery kinetics and polysulfides conversion. Herein, we designed and synthesized two kinds of rod-liked bulk COFs by adjusting different pore sizes (COF-BTD and COF-TFB), unfortunately, the active sites masking and sluggish kinetics have not met our expectations. Generally, the available layered COFs prepared from mechanochemical can expose abundant active sites and favorable kinetics than bulk COFs. Thus, simple mechanical ball milling is applied to activate the above COFs (M-COFs group). It is worth noting that layered R-COF-BTD is directly synthesized from rod-liked precursors by simple morphological reconstruction. A series of characterization methods are used to systematically explore the advantages of the group of M-COFs@S electrodes in the cycling process, including the effects of specific morphology on the kinetics and transformation of polysulfides. Our research provides a feasible plan for the development and selection of the host material of lithium-sulfur batteries.

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References

[1]	. R. Freund, O. Zaremba, M. Dinca, G. Arnauts, R. Ameloot, G. Skorupskii, A. Bavykina, J. Gascon, A. Ejsmont, J. Goscianska, M. Kalmutzki, U. Lachelt, E. Ploetz, C. S. Diercks and S. Wuttke, Angew. Chem., Int. Ed. 60 (45) (2021) 23975-24001.
[2]	. R. Liu, K. T. Tan, Y. Gong, Y. Chen, Z. Li, S. Xie, T. He, Z. Lu, H. Yang and D. Jiang, Chem. Soc. Rev. 50 (1) (2021) 120-242.
[3]	. C. Krishnaraj, H. S. Jena, K. Leus and P. Van der Voort, Green Chem. 22 (4) (2020) 1038-1071.
[4]	. Y. Wang, J. Xie, Z. Ren and Z.-H. Guan, Chem. Eng. J. 448 (15) (2022) 137687.
[5]	. J. Xiao, B. Li, R. Qiang, H. Qiu and J. Chen, Environ. Res. 214 (2022) 113977.
[6]	. G.-B. Wang, K.-H. Xie, H.-P. Xu, Y.-J. Wang, F. Zhao, Y. Geng and Y. B. Dong, Coord. Chem. Rev. 472 (2022) 214774.
[7]	. F. Meng, S. Bi, Z. Sun, D. Wu and F. Zhang, Angew. Chem., Int. Ed. 61 (44) (2022) e202210447.
[8]	. T. Skorjanc, D. Shetty and M. Valant, Acs Sens. 6 (4) (2021) 1461-1481.
[9]	. Y. Xu, C. Wu, N. Chu, J. Yang, Y. Lin and X. Chen, Sens. and Actuators, B 369 (2022) 132361.
[10]	. Z. Li, Z. Zhang, R. Nie, C. Li, Q. Sun, W. Shi, W. Chu, Y. Long, H. Li and X. Liu, Adv. Funct. Mate. 32 (21) (2022) 2112553.
[11]	. S. Das, T. Sekine, H. Mabuchi, T. Irie, J. Sakai, Y. Zhao, Q. Fang and Y. Negishi, ACS Appl. Mater. Interfaces 14 (2022) 48045-48051.
[12]	. N. Singh, J. Kim, J. Kim, K. Lee, Z. Zunbul, I. Lee, E. Kim, S. G. Chi and J. S. Kim, Bioact. Mater. 21 (2023) 358-380.
[13]	. L. Kong, M. Liu, H. Huang, Y. Xu and X.-H. Bu, Adv. Energy Mater. 12 (4) (2022) 2100172.
[14]	. X.-X. Luo, W.-H. Li, H.-J. Liang, H.-X. Zhang, K.-D. Du, X.-T. Wang, X.-F. Liu, J.-P. Zhang and X.-L. Wu, Angew. Chem., Int. Ed. 61 (10) (2022) e202117661.
[15]	. Y. Liu, L. Chen, L. Yang, T. Lan, H. Wang, C. Hu, X. Han, Q. Liu, J. Chen, Z. Feng, X. Cui, Q. Fang, H. Wang, L. Li, Y. Li, H. Xing, S. Yang, D. Zhao and J. Li, Green Energy Environ., (2023).
[15]	(4) (2021) 7318-7327.
[16]	. Y. Cao, W. Peng, Y. Li, F. Zhang, Y. Zhu and X. Fan, Green Energy Environ., (2021).
[17]	. M, Li., J. Liu, T. Zhang, X. Song, W. Chen and L. Chen, Small 17 (22) (2021) 2005073.
[18]	. Y. An, S. Tan, Y. Liu, K. Zhu, L. Hu, Y. Rong and Q. An, Energy Storage Mater. 41 (2021) 354-379.
[19]	. X. Chen, Y. Li, L. Wang, Y. Xu, A. Nie, Q. Li, F. Wu, W. Sun, X. Zhang, R. Vajtai, P. M. Ajayan, L. Chen and Y. Wang, Adv. Mater. 31 (29) (2019) 1901640.
[20]	. D. W. Burke, C. Sun, I. Castano, N. C. Flanders, A. M. Evans, E. Vitaku, D. C. McLeod, R. H. Lambeth, L. X. Chen, N. C. Gianneschi and W. R. Dichtel, Angew. Chem., Int. Ed. 132 (13) (2020). 5203-5209.
[21]	. S. Zheng, H. Zhou, H. Xue, P. Braunstein and H. Pang, J. Colloid Interface Sci. 614 (2022) 130-137.
[22]	. R. Yang, L. Mei, Q. Zhang, Y. Fan, H. S. Shin, D. Voiry and Z. Zeng, Nat. Protoc. 17 (2) (2022) 358-377.
[23]	. H. Wang, Z. Zeng, P. Xu, L. Li, G. Zeng, R. Xiao, Z. Tang, D. Huang, L. Tang, C. Lai, D. Jiang, Y. Liu, H. Yi, L. Qin, S. Ye, X. Ren and W. Tang, Chem. Soc. Rev. 48 (2) (2019) 488-516.
[24]	. S. Mitra, S. Kandambeth, B. P. Biswal, A. M. Khayum, C. K. Choudhury, M. Mehta, G.Kaur, S. Banerjee, A. Prabhune, S. Verma, S. Roy, U. K. Kharu and R. Banerjee, J. Am.Chem. Soc. 138 (8) (2016) 2823-2828.
[25]	. B. P. Biswal, S. Chandra, S. Kandambeth, B. Lukose, T. Heine and R. Banerjeet, J. Am.Chem. Soc. 135 (14) (2013) 5328-5331.
[26]	. G. Das, B. P. Biswal, S. Kandambeth, V. Venkatesh, G. Kaur, M. Addicoat, T. Heine, S.Verma and R. Banerjee, Chem. Sci. 6 (7) (2015) 3931-3939.
[27]	. G. Zhao, H. Li, Z. Gao, L. Xu, Z. Mei, S. Cai, T. Liu, X. Yang, H. Guo and X. Sun, Adv.Funct. Mater. 31 (29) (2021) 2101019.
[28]	. Y. Chen, T. Wang, H. Tian, D. Su, Q. Zhang and G. Wang, Adv. Mater. 33 (29) (2021)2003666.
[29]	. J. Geng, Y. Ni, Z. Zhu, Q. Wu, S. Gao, W. Hua, S. Indris, J. Chen, and F. Li, J. Am. Chem.Soc. 145 (2023) 1564-1571.
[30]	. Q. Lv, Z. Zhu, Y. Ni, B. Wen, Z. Jiang, H. Fang, and F. Li, J. Am. Chem. Soc. 144 (2022)23239-23246.
[31]	. L. Wang, Y. Ni, X. Hou, L. Chen, F. Li and J. Chen, Angew. Chem. Int. Ed. 59 (2020)22126-22131.
[32]	. H. Zhang, J. Wang, Q. Cheng, P. Saha, H. Jiang, Green Energy Environ. 5 (2020) 492-498.
[33]	. M. Dong, X. Liu, L. Jiang, Z. Zhu, Y. Shu, S. Chen, Y. Dou, P. Liu, H. Yin, H. Zhao, GreenEnergy Environ. 5 (2020) 499-505.
[34]	. Y. Liu, Y. Elias, J. Meng, D. Aurbach, R. Zou, D. Xia and Q. Pang, Joule 5 (9) (2021) 2323-2364.
[35]	. Z. Shi, M. Li, J. Sun and Z. Chen, Adv. Energy Mater. 11 (23) (2021) 2100332.
[36]	. L. Han, Y. Li, Y. Yang, S. Sun, M. Li, J. Yue, C. Y. Chuah and J. Li, J. Colloid Interface Sci.628 (2022) 144-153.
[37]	. M. Li, Y. Wang, S. Sun, Y. Yang, G. Gu and Z. Zhang, Chem. Eng. J. 429 (2022) 132254.
[38]	. G. Gao, Y. Jia, H. Gao, W. Shi, J. Yu, Z. Yang, Z. Dong and Y. Zhao, ACS Appl. Mater.Interfaces 13 (42) (2021) 50258-50269.
[39]	. B. Du, Y. Luo, Y. Yang, W. Xue, G. Liu and J. Li, Chem. Eng. J. 442 (2022) 135823.
[40]	. Z.-J. Zheng, H. Ye and Z.-P. Guo, Energy Environ. Sci. 14 (4) (2021) 1835-1853.
[41]	. J. Shi, M. Su, H. Li, D. Lai, F. Gao and Q. Lu, ACS Appl. Mater. Interfaces 14 (37) (2022)42018-42029.
[42]	. S. Haldar, K. Roy, R. Kushwaha, S. Ogale and R. Vaidhyanathan, Adv. Energy Mater. 9 (48)(2019) 1902428.
[43]	. H. Duan, K. Li, M. Xie, J. M. Chen, H. G. Zhou, X. Wu, G. H. Ning, A. I. Cooper and D.Li, J. Am. Chem. Soc. 143 (46) (2021) 19446-19453.
[44]	. H. Xu, J. Gao and D. Jiang, Nat. Chem. 7 (11) (2015) 905-912.
[45]	. J. Yang, A. Acharjya, M. Y. Ye, J. Rabeah, S. Li, Z. Kochovski, S. Youk, J. Roeser, J.Gruneberg, C. Penschke, M. Schwarze, T. Wang, Y. Lu, R. van de Krol, M. Oschatz, R.Schomacker, P. Saalfrank and A. Thomas, Angew. Chem., Int. Ed. 60 (36) (2021) 19797-19803.
[46]	. L. Grunenberg, G. Savasci, M. W. Terban, V. Duppel, I. Moudrakovski, M. Etter, R. E.Dinnebier, C. Ochsenfeld and B. V. Lotsch, J. Am. Chem. Soc. 143 (9) (2021) 3430-3438.
[47]	. X. Guo, Y. Tian, M. Zhang, Y. Li, R. Wen, X. Li, X. Li, Y. Xue, L. Ma, C. Xia and S. Li,Chem. Mater. 30 (7) (2018) 2299-2308.
[48]	. Y. Liang, T. Xia, Z. Chang, W. Xie, Y. Li, C. Li, R. Fan, W. Wang, Z. Sui and Q. Chen,Chem. Eng. J. 437 (2022) 135314.
[49]	. X.-F. Liu, H. Chen, R. Wang, S.-Q. Zang and T. C. W. Mak, Small 16 (34) (2020) 2002932.
[50]	. Q. Shao, L. Xu, D. Guo, Y. Su and J. Chen, J. Mater. Chem. A 8 (45) (2020) 23772-23783.
[51]	. M. Li, D. Yang, J. J. Biendicho, X. Han, C. Zhang, K. Liu, J. Diao, J. Li, J. Wang, M.Heggen, R. E. Dunin‐Borkowski, J. Wang, G. Henkelman, J. R. Morante, J. Arbiol, S. L.Chou and A. Cabot, Adv. Funct. Mater. 32 (2022) 2200529.
[52]	. Z. Jin, T. Lin, H. Jia, B. Liu, Q. Zhang, L. Li, L. Zhang, Z.-m. Su and C. Wang, ACS Nano
[53]	. Y. Lu, C.-Z. Zhao, J.-Q. Huang and Q. Zhang, Joule 6 (2022) 1172-1198.
[54]	. T. H. Wan, M. Saccoccio, C. Chen and F. Ciucci, Electrochim. Acta 184 (2015) 483-499.
[55]	. Y.-W. Song, Y.-Q. Peng, M. Zhao, Y. Lu, J.-N. Liu, B.-Q. Li and Q. Zhang, Small Sci. 1(11) (2021) 2100042.
[56]	. X. Y. Li, S. Feng, M. Zhao, C. X. Zhao, X. Chen, B. Q. Li, J. Q. Huang and Q. Zhang,Angew. Chem., Int. Ed. 61 (7) (2021) e202114671.
[57]	. R. Soni, J. B. Robinson, P. R. Shearing, D. J. L. Brett, A. J. E. Rettie and T. S. Miller, Energy Storage Mater. 51 (2022) 97-107.

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Mechanochemical strategy assisted morphology recombination of COFs for promoted kinetics and LiPS transformation in Li-S batteries

doi: 10.1016/j.gee.2023.03.005

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Mechanochemical strategy assisted morphology recombination of COFs for promoted kinetics and LiPS transformation in Li-S batteries

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