Page 57 - 《精细化工)》2023年第10期
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第 10 期                     张风帆,等:  磁性纳米片的制备及功能化应用研究进展                                   ·2135·


            究中,着重研究操作简单、条件温和、低成本、高                                 magnetic nanoparticles[J]. Colloids and Surfaces A Physicochemical
            质量、可以规模化应用于工业生产的制备方法,这                                 and Engineering Aspects, 2020, 606: 125462.
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            是磁性纳米片在各个应用领域进一步发展的基础;                                 nickel and zinc ferrite spinel nanoparticles applied in aniline
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            是反应过程机理认识不清,尽管部分学者提出了一些                            [8]   JAHANI G, MALMIR M, HERAVI  M M. Catalytic oxidation  of
            反应机理,解释了成片的机制。但磁性纳米片形貌调                                alcohols  over a nitrogen-and sulfur-doped graphitic carbon dot-
            控的深层机理仍不明了,在后续的研究中应着重研究                                modified magnetic nanocomposite[J]. Industrial & Engineering
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            效关系,为规模化可控制备奠定理论基础;(3)磁                                et al. Catalytic performance of  magnetic (CaO-MgO)@Fe 3O 4/C solid
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            性纳米片具有理论容量大、电子电导率高、成本低
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            和安全性好等特点,使其在电极材料等新能源行业                             [10]  ALGAMDI M, ALSHAHRANI A,  ALSUHYBANI M. Chitosan
            具有巨大前景。但作为负极材料使用时,结构不稳                                 grafted tetracarboxylic functionalized magnetic nanoparticles for
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            定等问题制约了磁性纳米片的开发和应用。表面包                                 Journal of Biological Macromolecules, 2023, 225: 1517-1528.
            覆和结构设计是提升磁性纳米片应用性能的重要                              [11]  SARAVANAN A, KUMAR P, GOVARTHANAN  M,  et al.
            研究方向,特别是双碳背景下,多种材料的掺杂与                                 Adsorption characteristics of magnetic nanoparticles coated mixed
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            复合对提升电池循环稳定性能是十分必要的;(4)                                Chemosphere, 2021, 267: 129226.
            磁性纳米片高各向异性场的高渗透性、高磁共振频                             [12]  REN K  K (任凯文), WANG Y X (王雨昕), MA J C (马建超).
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            波性能受微观结构和材料体系的影响较大,通过对                             [13]  ZHANG W D, XIAO H M, ZHU L P, et al. Template-free solvothermal
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