几何和成分调制纳米线的合成、表征和磁结构特性

Ana Isabel Jiménez-Ramírez, Yolanda Álvarez López, Ana Silvia González, Javier García Fernández, Jose Ángel Fernández-Roldán, Víctor Vega Martínez, Miguel Méndez and Víctor M Prida
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引用次数: 0

摘要

金属和磁性纳米线具有独特的物理化学特性,无论是有序排列的阵列,还是从图案化模板中获得的单一、孤立和独立的结构,都已在各种技术应用中得到广泛研究。这些应用包括磁性数据存储、传感、生物标记、条形码等。用于合成金属纳米线的新型模板辅助方法增强了对金属纳米线形状和形态、成分均匀性和互连性的控制,使它们能够作为新型超材料应用于新型多功能应用领域。在这篇重要综述中,我们将广泛综述多层和多段金属纳米线的合成和特性,这些纳米线通过采用基于牺牲纳米多孔氧化铝模板辅助方法的电化学技术,具有特别控制的几何形状和成分分级设计。我们回顾了在设计用于制造具有多功能应用的新型金属纳米线的合成方案方面的最新进展。与传统的实验室程序相比,这些方案的制造成本具有竞争力,有可能扩大其在各个研究领域的应用。在这篇综述中,我们还提出了新的挑战,并展望了这些基于超材料的新型纳米线的未来前景和期望。
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Synthesis, characterization and magneto-structural properties of geometrical and compositional modulated nanowires
The unique physicochemical properties of metallic and magnetic nanowires, whether obtained in well-ordered arrays or as single, isolated, and free-standing structures from patterned templates, have been extensively studied for various technological applications. These applications include magnetic data storage, sensing, biolabeling, barcoding, among many others. Novel template-assisted methods for the synthesis of metallic nanowires offer an enhancement over the control of their shape and morphology, compositional uniformity, and interconnectivity, allowing them for being applied as new metamaterials for novel multifunctional applications. Within this critical review, an extensive overview focused on the synthesis and characterization of the particular properties exhibited by multilayered and multisegmented metallic nanowires having specifically controlled geometries and compositional graded designs through employing electrochemical techniques based on sacrificial nanoporous alumina template-assisted methods, is presented. We review recent advancements in designing synthesis protocols for fabricating new metallic nanowires with multifunctional applications. These protocols offer competitive fabrication costs compared to conventional laboratory procedures, potentially expanding their use in various research areas. In this review, we also establish the new challenges and suggest the future perspectives and expectations that will be covered by these new metamaterial-based nanowires.
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