Dang Baoying, Gao Dayang, Li Jingde, Wu Feichao . Research progress on 2D metal-organic frameworks for lithium-sulfur battery[J]. New Chemical Materials, 2021 , 49(11) : 26 -30 . DOI: 10.19817/j.cnki.issn 1006-3536.2021.11.006

[1] 付欣,杨蓉,刘磊,等.蜂窝状三维碳材料的制备及其在锂硫电池中的应用研究[J].化工新型材料,2019,47(2):85-49.
[2] Chien Y C,Menon A S,Brant W R,et al.Simultaneous monitoring of crystalline active materials and resistance evolution in lithium-sulfur batteries[J].Journal of the American Chemical Society,2020,142(3):1449-1456.
[3] Kang N,Lin Y X,Yang L,et al.Cathode porosity is a missing key parameter to optimize lithium-sulfur battery energy density[J].Nature Communications,2019,10:4597.
[4] Tian Y,Li G R,Zhang Y G,et al.Low-bandgap se-deficient antimony selenide as a multifunctional polysulfide barrier toward high-performance lithium-sulfur batteries[J].Advanced Materials,2020,32(4):1904876.
[5] Rojaee R,Yassar R S.Two-dimensional materials to address the lithium battery challenges[J].ACS Nano,2020,14(3):2628-2658.
[6] Xiao X,Zou L L,Pang H,et al.Synthesis of micro/nano scaled metal-organic frameworks and their direct electrochemical applications[J].Chemical Society Reviews,2020,49:301-331.
[7] Liang Z B,Qu C,Guo W H,et al.Pristine metal-organic frameworks and their composites for energy storage and conversion[J].Advanced Materials,2018,30(37):1702891.
[8] Jana M,Xu R,Cheng X B,et al.Rational design of two-dimensional nanomaterials for lithium-sulfur batteries[J].Energy & Environmental Science,2020,13(4):1049-1075.
[9] Zhao M T,Lu Q P,Ma Q L,et al.Two-dimensional metal-organic framework nanosheets[J].Small Methods,2017,1(1-2):1600030-1600037.
[10] Peng Y,Li Y,Ban Y,et al.Metal-organic framework nanosheets as building blocks for molecular sieving membranes[J].Science,2014,346(6215):1356-1359.
[11] Zhang Q F,Wang Y P,She Z W,et al.Understanding the anchoring effect of two-dimensional layered materials for lithium-sulfur batteries[J].Nano Letters,2015(6):3780-3786.
[12] Ye C,Chao D L,Shan J Q,et al.Unveiling the advances of advances of 2D materials for Li/Na-S batteries experimentally and theoretically[J].Matter,2020,2(2):323-344.
[13] Shao Q J,Wu Z S,Chen J.Two-dimensional materials for advanced Li-S batteries[J].Energy Storage Materials,2019,22:284-310.
[14] Liu J J,Song X Y,Zhang T,et al.2D Conductive metal-organic frameworks:an emerging platform for electrochemical energy storage[J].Angewandte Chemie International Edition,2020,DOI:10.1002/anie.202006102.
[15] Cai D,Lu M J,Li L,et al.A Highly conductive MOF of graphene analogue Ni₃(HITP)₂ as a sulfur host for high-performance lithium-sulfur batteries[J].Small,2019,15(44):1902605.
[16] Chen H H,Xiao Y W,Chen C,et al.Conductive MOF-modified separator for mitigating the shuttle effect of lithium-sulfur battery through a filtration method[J].ACS Applied Materials & Interfaces,2019,11(12):11459-11465.
[17] 藏应.二维导电MOF晶态多孔薄膜的电学性能研究[D].郑州:郑州大学,2017.
[18] Li F,Zhang X M,Liu X B,et al.Novel conductive metal-organic framework for a high-performance lithium-sulfur battery host:2D Cu-Benzenehexathial (BHT)[J].ACS Applied Materials & Interfaces,2018,10(17):15012-15020.
[19] Gao G P,Zheng F,Pan F,et al.Theoretical investigation of 2D conductive microporous coordination polymers as Li-S battery cathode with ultrahigh energy density[J].Advanced Energy Materials,2018,8(25):1801823.
[20] Hao G P,Tang C,Zhang E,et al.Thermal exfoliation of layered metal-organic frameworks into ultra-hydrophilic graphene stacks and their applications in Li-S batteries[J].Advanced Materials,2017,29(18):170282.
[21] Jiang Y,Liu H Q,Tan X H,et al.Monoclinic ZIF-8 nanosheet-derived 2D carbon nanosheets as sulfur immobilizer for high-performance lithium sulfur batteries[J].ACS Applied Materials & Interfaces,2017,9(30):25239-25249.
[22] Qian W W,Zhang H,Xiao H,et al.2D meso/microporous platelet carbon derived from metal-organic frameworks and its application in high-performance Li-S batteries[J].Chem Electro Chem,2019,6(12):3091-3100.
[23] Li Y J,Fan J M,Zhang J H,et al.A honeycomb-like Co@N-C composite for ultrahigh sulfur loading Li-S batteries[J].ACS Nano,2017,11(11):11417-11424.
[24] Wang Z S,Shen J D,Liu J,et al.Self-supported and flexible sulfur cathode enabled via synergistic confinement for high-energy-density lithium-sulfur batteries[J].Advanced Materials,2019,31(33):1902228.
[25] Wang Y,Deng Z,Huang J Y,et al.2D Zr-Fc metal-organic frameworks with highly efficient anchoring and catalytic conversion ability towards polysulfides for advanced Li-S battery[J].Energy Storage Materials,2021,36:466-477.
[26] Zheng S N,Sun D L,Wu L L,et al.Carbon fiber supported two-dimensional ZIF-7 interlayer for durable lithium-sulfur battery[J].Journal of Alloys and Compounds,2021,870:159412.
[27] Zhang J F,Li G R,Zhang Y G,et al.Vertically rooting multifunctional tentacles on carbon scaffold as efficient polysulfide barrier toward superior lithium-sulfur batteries[J].Nano Energy,2019,64:103905.
[28] 杨凯,章胜男,韩东梅,等.多功能锂硫电池隔膜[J].化学进展,2018,30(12):1942-1959.
[29] Rana M,Li M,Huang X,et al.Recent advances in separators to mitigate technical challenges associated with re-chargeable lithium sulfur batteries[J].Journal of Materials Chemistry A,2019,7:6596-6615.
[30] Zang Y,Pei F,Huang J H,et al.Large-area preparation of crack-free crystalline microporous conductive membrane to upgrade high energy lithium-sulfur batteries[J].Advanced Energy Materials,2018,8(31):1802052.
[31] Tian M,Pei F,Yao M S,et al.Ultrathin MOF nanosheet assembled highly oriented microporous membrane as an interlayer for lithium-sulfur batteries[J].Energy Storage Materials,2019,21:14-21.
[32] Chang Z,Qiao Y,Wang J,et al.Two-dimensional metal-organic framework with perpendicular one-dimensional nano-channel as precise polysulfides sieves for high efficient lithium-sulfur batteries[J].Journal of Materials Chemistry A,2021,8(9):4870-4879.
[33] Li Y J,Lin S Y,Wang D D,et al.Single atom array mimic on ultrathin MOF nanosheets boosts the safety and life of lithium-sulfur batteries[J].Advanced Materials,2020,32(8):1906722.