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    Journals >Infrared and Laser Engineering >Volume 52 >Issue 12 >Page 20230393 > Article
    • Infrared and Laser Engineering
    • Vol. 52, Issue 12, 20230393 (2023)
    Study on preparation and infrared properties of CoS QDs/PDMS nanocomposite films
    Kun Hu1,2,3, Taiwei Zhang1,2,3, Guobin Li1,2,3, Xueming Li1..., Libin Tang2,3,* and Peizhi Yang1|Show fewer author(s)
    Author Affiliations
  • 1Key Laboratory of Advanced Technique & Preparation for Renewable Energy Materials, Ministry of Education, School of Energy and Environmental Sciences, Yunnan Normal University, Kunming 650500, China
  • 2Kunming Institute of Physics, Kunming 650223, China
  • 3Yunnan Key Laboratory of Advanced Photoelectric Materials & Devices, Kunming 650223, China
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    DOI: 10.3788/IRLA20230393 Cite this Article
    Kun Hu, Taiwei Zhang, Guobin Li, Xueming Li, Libin Tang, Peizhi Yang. Study on preparation and infrared properties of CoS QDs/PDMS nanocomposite films[J]. Infrared and Laser Engineering, 2023, 52(12): 20230393 Copy Citation Text show less
    References

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    [2] Yin Z Z. Preparation of TiO2based heterojunction its photocatalytic perfmance of tetracycline hydrochlide [D]. Hefei: Anhui University, 2022. (in Chinese)

    [3] J H Joshi, D D Khunti, M J Joshi, et al. Penn model and wemple-didomenico single oscillator analysis of cobalt sulfide nanoparticles. Functional Oxides and Nanomaterials, 1837, 040033(2017).

    [4] B J Rani, S S Pradeepa, Z M Hasan, et al. Supercapacitor and OER activity of transition metal (Mo, Co, Cu) sulphides. Journal of Physics and Chemistry of Solids, 138, 109240(2020).

    [5] A Pourahmad, S Sohrabnezhad, E Radaee, et al. Degradation of basic blue 9 dye by CoS/nanoAlMCM-41 catalyst under visible light irradiation. Journal of Porous Materials, 17, 367-375(2010).

    [6] K A Kumar, A Pandurangan, S Arumugam, et al. Effect of Bi-functional hierarchical flower-like CoS nanostructure on its interfacial charge transport kinetics, magnetic and electrochemical behaviors for supercapacitor and dssc applications. Scientific Reports, 9, 1228(2019).

    [7] C W Kung, H W Chen, C Y Lin, et al. CoS acicular nanorod arrays for the counter electrode of an efficient dye-sensitized solar cell. ACS Nano, 6, 7016-7025(2012).

    [8] Z Q Hui, N Li, X L Zhang, et al. CoS nanosheets for generation of vector soliton and bound solitons in nonlinear optical fiber system. Optics and Laser Technology, 160, 109026(2023).

    [9] K O Ighodalo, B N Ezealigo, A Agbogu, et al. The effect of deposition cycles on intrinsic and electrochemical properties of metallic cobalt sulfide by simple chemical route. Materials Science in Semiconductor Processing, 101, 16-27(2019).

    [10] Z L Li, Z Li, L Chen, et al. Polyethylene glycol-modified cobalt sulfide nanosheets for high-performance photothermal conversion and photoacoustic/magnetic resonance imaging. Nano Research, 11, 2436-2449(2018).

    [11] J Ding, Y B Zhu, Y L Ma, et al. Spiderweb-inspired all-weather CoS quantum dots confined in n-doped carbon for boosted sulfate radical evolution. Chemical Communications, 58, 6954-6957(2022).

    [12] Xingfan Chen, Bin Li, Xueming Li, . Research advances in optoelectronic devices of quantum dot-polymer nanocomposites. Infrared and Laser Engineering, 51, 20210637(2022).

    [13] M Chauhan, K P Reddy, S Deka, et al. Copper cobalt sulfide nanosheets realizing a promising electrocatalytic oxygen evolution reaction. ACS Catalysis, 7, 5871-5879(2017).

    [14] J H Shi, X C Li, G H He, et al. Electrodeposition of high-capacitance 3D CoS/graphene nanosheets on nickel foam for high-performance aqueous asymmetric supercapacitors. Journal of Materials Chemistry A, 3, 20619-20626(2015).

    [15] Y Pan, Y Q Liu, C G Liu, et al. Phase-and morphology-controlled synthesis of cobalt sulfide nanocrystals and comparison of their catalytic activities for hydrogen evolution. Applied Surface Science, 357, 1133-1140(2015).

    [16] H Liu, Z W You, S Yang, et al. High-efficient adsorption and removal of elemental mercury from smelting flue gas by cobalt sulfide. Environmental Science and Pollution Research International, 26, 6735-6744(2019).

    [17] L Yang, X L Wu, X S Zhu, et al. Amorphous nickel/cobalt tungsten sulfide electrocatalysts for high-efficiency hydrogen evolution reaction. Applied Surface Science, 341, 149-156(2015).

    [18] J H Tang, Y C Ge, J F Shen, et al. Facile synthesis of CuCo2S4 as a novel electrode material for ultrahigh supercapacitor performance. Chemical Communications, 52, 1509-1512(2016).

    [19] X W Wang, B Batter, Y Xie, et al. Highly crystalline, small sized, monodisperse α-NiS nanocrystal ink as an efficient counter electrode for dye-sensitized solar cells. Journal of Materials Chemistry A, 3, 15905-15912(2015).

    [20] L Xu, Y Lu. One-step synthesis of a cobalt sulfide/reduced graphene oxide composite used as an electrode material for supercapacitors. RSC Advances, 5, 67518-67523(2015).

    [21] K K Nan, H F Du, L Su, et al. Directly electrodeposited cobalt sulfide nanosheets as advanced catalyst for oxygen evolution reaction. Chemistryselect, 3, 7081-7088(2018).

    [22] C Y Chen, Z Y Shih, Z S Yang, et al. Carbon nanotubes/cobalt sulfide composites as potential high-rate and high-efficiency supercapacitors. Journal of Power Sources, 215, 43-47(2012).

    [23] T Y Huang, M He, Y M Zhou, et al. Solvothermal fabrication of CoS nanoparticles anchored on reduced graphene oxide for high-performance microwave absorption. Synthetic Metals, 224, 46-55(2017).

    [24] Y R Ren, H Y Wang, T Y Zhang, et al. Designed preparation of CoS/Co/MoC nanoparticles incorporated in N and S dual-doped porous carbon nanofibers for high-performance Zn-air batteries. Chinese Chemical Letters, 32, 2243-2248(2021).

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    Kun Hu, Taiwei Zhang, Guobin Li, Xueming Li, Libin Tang, Peizhi Yang. Study on preparation and infrared properties of CoS QDs/PDMS nanocomposite films[J]. Infrared and Laser Engineering, 2023, 52(12): 20230393
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