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    Journals >Journal of Inorganic Materials >Volume 36 >Issue 7 >Page 766 > Article
    • Journal of Inorganic Materials
    • Vol. 36, Issue 7, 766 (2021)
    Tuning Nitrogen Species and Content in Carbon Materials through Constructing Variable Structures for Supercapacitors
    Peng SUN1、2, Shaoning ZHANG1、3, Hui BI1, Wujie DONG1, and Fuqiang HUANG1、3、4、*
    Author Affiliations
  • 11. State Key Laboratory of High Performance Ceramics and Superfine Microstructure, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, China
  • 22. Center of Materials Science and Optoelectronics Engineering, University of Chinese Academy of Sciences, Beijing 100049, China
  • 33. School of Physical Science and Technology, ShanghaiTech University, Shanghai 200031, China
  • 44. State Key Laboratory of Rare Earth Materials Chemistry and Applications, College of Chemistry and Molecular Engineering, Peking University, Beijing 100871, China
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    DOI: 10.15541/jim20200498 Cite this Article
    Peng SUN, Shaoning ZHANG, Hui BI, Wujie DONG, Fuqiang HUANG. Tuning Nitrogen Species and Content in Carbon Materials through Constructing Variable Structures for Supercapacitors[J]. Journal of Inorganic Materials, 2021, 36(7): 766 Copy Citation Text show less
    References

    [1] L ZHANG L, S ZHAO X. Carbon-based materials as supercapacitor electrodes. Chemical Society Reviews, 38, 2520-2531(2009).

    [2] X HAO Y, M QIAN, J XU J et al. Porous cotton-derived carbon: synthesis, microstructure and supercapacitive performance. Journal of Inorganic Materials, 33, 93-99(2018).

    [3] H YU J, L XU L, Q ZHU Q et al. Superior electrochemical performance of graphene via carboxyl functionalization and surfactant intercalation. Journal of Inorganic Materials, 31, 220-224(2016).

    [4] Y HWANG J, P LI M, M F EI-KADY et al. Next-generation activated carbon supercapacitors: a simple step in electrode processing leads to remarkable gains in energy density. Advanced Functional Materials, 27, 1605745(2017).

    [5] Y ZHOU, X JIA Z, L SHI L et al. Pressure difference-induced synthesis of P-doped carbon nanobowls for high-performance supercapacitors. Chemical Engineering Journal, 385, 123858(2020).

    [6] M SEREDYCH, D HULICOVA-JURCAKOVA, Q LU G et al. Surface functional groups of carbons and the effects of their chemical character, density and accessibility to ions on electrochemical performance. Carbon, 46, 1475-1488(2008).

    [7] W HAN S, J BANG, H KO S et al. Variation of nitrogen species in zeolite-templated carbon by low-temperature carbonization of pyrrole and the effect on oxygen reduction activity. Journal of Materials Chemistry A, 7, 8353-8360(2019).

    [8] Y LI S, Q GU Q, N CAO et al. Defect enriched N-doped carbon nanoflakes as robust carbocatalysts for H2S selective oxidation. Journal of Materials Chemistry A, 8, 8892-8902(2020).

    [9] H CHOI C, H PARK S, I WOO S. Binary and ternary doping of nitrogen, boron, and phosphorus into carbon for enhancing electrochemical oxygen reduction activity. ACS Nano, 6, 7084-7091(2012).

    [10] H HE, D HUANG, G TANG Y et al. Tuning nitrogen species in three-dimensional porous carbon via phosphorus doping for ultra-fast potassium storage. Nano Energy, 57, 728-736(2019).

    [11] F TO J W, J HE J, G MEI J et al. Hierarchical N-doped carbon as CO2 adsorbent with high CO2 selectivity from rationally designed polypyrrole precursor. Journal of The American Chemical Society, 138, 1001-1009(2016).

    [12] B SU F, Q TIAN Z, K POH C et al. Pt nanoparticles supported on nitrogen-doped porous carbon nanospheres as an electrocatalyst for fuel cells. Chemistry of Materials, 22, 832-839(2010).

    [13] L LIU R, F SHI Y, Y WAN et al. Triconstituent co-assembly to ordered mesostructured polymer-silica and carbon-silica nanocomposites and large-pore mesoporous carbons with high surface areas. Journal of The American Chemical Society, 128, 11652-11662(2006).

    [14] C FERRARI A, J ROBERTSON. Interpretation of Raman spectra of disordered and amorphous carbon. Physical Review B, 61, 14095-14107(2000).

    [15] F XU, P SUN, M QIAN et al. Variable texture few-layer ordered macroporous carbon for high-performance electrochemical capacitors. Journal of Materials Chemistry A, 5, 25171-25176(2017).

    [16] B WANG H, T MAIYALAGAN, X WANG. Review on recent progress in nitrogen-doped graphene: synthesis, characterization, and its potential applications. ACS Catalysis, 2, 781-794(2012).

    [17] J SUN, L WANG, R SONG et al. Enhancing pyridinic nitrogen level in graphene to promote electrocatalytic activity for oxygen reduction reaction. Nanotechnology, 27, 055404(2016).

    [18] H SUN, Y QUAN H, H PAN M et al. Nitrogen-doped hierarchically structured porous carbon as a bifunctional electrode material for oxygen reduction and supercapacitor. Journal of Alloys and Compounds, 826, 154208(2020).

    [19] N DEKA, J BARMAN, S KASTHURI et al. Transforming waste polystyrene foam into N-doped porous carbon for capacitive energy storage and deionization applications. Applied Surface Science, 511, 145576(2020).

    [20] J DU, B CHEN A, L LIU et al. N-doped hollow mesoporous carbon spheres prepared by polybenzoxazines precursor for energy storage. Carbon, 160, 265-272(2020).

    [21] Z WANG Y, X LIU Y, H WANG D et al. Free-standing honeycomb-like N doped carbon foam derived from coal tar pitch for high-performance supercapacitor. Applied Surface Science, 506, 145014(2020).

    [22] L HUO S, L ZHANG X, L LIANG B et al. Synthesis of interconnected hierarchically porous carbon networks with excellent diffusion ability based on NaNO3 crystal-assisted strategy for high performance supercapacitors. Journal of Power Sources, 450, 227612(2020).

    [23] R YUKSEL, O BUYUKCAKIR, K PANDA P et al. Necklace-like nitrogen doped tubular carbon 3D frameworks for electrochemical energy storage. Advanced Functional Materials, 30, 1909725(2020).

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    Peng SUN, Shaoning ZHANG, Hui BI, Wujie DONG, Fuqiang HUANG. Tuning Nitrogen Species and Content in Carbon Materials through Constructing Variable Structures for Supercapacitors[J]. Journal of Inorganic Materials, 2021, 36(7): 766
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