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Progress on Space Materials Science in China: Debris Shielding Fibrous Materials and High Specific Energy Lithium Sulfur Batteries*

WU Nan LIU Shuangke ZHANG Xiaoshan SUN Weiwei ZHENG Chunman WANG Yingde

WU Nan, LIU Shuangke, ZHANG Xiaoshan, SUN Weiwei, ZHENG Chunman, WANG Yingde. Progress on Space Materials Science in China: Debris Shielding Fibrous Materials and High Specific Energy Lithium Sulfur Batteries. Chinese Journal of Space Science, 2022, 42(4): 803-811 doi: 10.11728/cjss2022.04.yg24
Citation: WU Nan, LIU Shuangke, ZHANG Xiaoshan, SUN Weiwei, ZHENG Chunman, WANG Yingde. Progress on Space Materials Science in China: Debris Shielding Fibrous Materials and High Specific Energy Lithium Sulfur Batteries. Chinese Journal of Space Science, 2022, 42(4): 803-811 doi: 10.11728/cjss2022.04.yg24

Progress on Space Materials Science in China: Debris Shielding Fibrous Materials and High Specific Energy Lithium Sulfur Batteries*

doi: 10.11728/cjss2022.04.yg24
Funds: Supported by the National Natural Science Foundation of China (52002400), Young Elite Scientists Sponsorship Program by CAST (YESS20200093)
More Information
  • Figure  1.  Comparison of ballistic limit curves of filled protective structures

    Figure  2.  Structural damage of three-layer aluminum and SiC fibers after different impacting velocity and different projectile diameter

    Figure  3.  (a) Digital image of the large-scale SiZrOC NF membrane; (b) Stress-strain curves of the SiZrOC NF membranes; (c) Thermal conductivity of the SiZrOC NFs and reported mullite fibers membranes

    Figure  4.  (a) Schematic illustration of the fabrication process of yolk-shelled Fe2N@C NBs. SEM of Fe2O3 nanocubes (b) (c)and Fe2N@C NBs (d)(e). TEM images (f)(g) andelemental mapping images of Fe2N@C NBs (h)–(k)

    Figure  5.  Assessment of electrochemical capability for the industrial grade Li-S pouch cells based on the IHPC-2/S (93) nanocomposite. (a) Schematic diagram of as-assembled Li-S pouch cells. (b) GCD curves and (c) cycling performance of the Li-S pouch cell at 0.1 C. (d) Comparison of energy density at the device level between the Li-S pouch cell in this work and other reported Li-S cells

  • [1] YAN Jun, ZHENG Shigui. Space debris protection design for the space station[J]. Space Debris Research, 2017, 17(1): 25-29
    [2] GU Bohong, SUN Baozhong. Impact Dynamics of Textile Structural Composites[M]. Beijing: Science Press, 2012
    [3] WU N, WANG B, WANG Y D. Enhanced mechanical properties of amorphous SiOC nanofibrous membrane through in situ embedding nanoparticles[J]. Journal of the American Ceramic Society, 2018, 101(10): 4763-4772 doi: 10.1111/jace.15732
    [4] ZHANG X S, WANG B, WU N, et al. Multi-phase SiZrOC nanofibers with outstanding flexibility and stability for thermal insulation up to 1400℃[J]. Chemical Engineering Journal, 2021, 410: 128304 doi: 10.1016/j.cej.2020.128304
    [5] ZHANG X S, TIAN Q, WANG B, et al. Flexible porous SiZrOC ultrafine fibers for high-temperature thermal insulation[J]. Materials Letters, 2021, 299: 130131 doi: 10.1016/j.matlet.2021.130131
    [6] SUN W W, LIU C, LI Y J, et al. Rational construction of Fe2N@C yolk-shell nanoboxes as multifunctional hosts for ultralong lithium-sulfur batteries[J]. ACS Nano, 2019, 13(10): 12137-12147 doi: 10.1021/acsnano.9b06629
    [7] SUN W W, LI Y J, LIU S K, et al. Mechanism investigation of iron selenide as polysulfide mediator for long-life lithium-sulfur batteries[J]. Chemical Engineering Journal, 2021, 416: 129166 doi: 10.1016/j.cej.2021.129166
    [8] SUN W W, LI Y J, LIU S K, et al. Catalytic Co9S8 decorated carbon nanoboxes as efficient cathode host for long-life lithium-sulfur batteries[J]. Nano Research, 2020, 13(8): 2143-2148 doi: 10.1007/s12274-020-2821-x
    [9] SUN X X, LIU S K, SUN W W, et al. Nano-confined synthesis of multi yolk-shell Co-NC@N-HCSs hybrid as sulfur host for high performance lithium-sulfur batteries[J]. Electrochimica Acta, 2021, 398: 139302 doi: 10.1016/j.electacta.2021.139302
    [10] WANG L, LIU S K, HU J, et al. Tailoring polysulfide trapping and kinetics by engineering hollow carbon bubble nanoreactors for high-energy Li-S pouch cells[J]. Nano Research, 2021, 14(5): 1355-1363 doi: 10.1007/s12274-020-3181-2
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出版历程
  • 收稿日期:  2022-06-29
  • 网络出版日期:  2022-07-12

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