Ying Li, Yuhao Zhang, Juan Xu, Caixia Kan, Zhaosheng Li and Daning Shi
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引用次数: 0
Abstract
Nobel metal nanostructures have been widely studied owing to their excellent surface plasmon resonance (SPR) effects. In order to regulate the SPR properties and applications of noble metal nanostructures, it is critical to accurately control their morphology and composition. Gold nanorods (Au NRs) have become a research hotpot because of their anisotropic shape and tunable plasmonic properties. By designing various heterostructures and assemblies composed of Au NRs, improvements in their SPR effects and further applications can be achieved. In this study, Au NR@Au–Ag nanoframes were prepared based on Au NRs via a sacrificial template method. The combination of metal nanostructures and open nanostructures not only maintained the characteristics of each component, but also showed synergistic effects, enhancing the performance of the composite nanostructures. Experimental results showed that the nanostructures exhibited tunable SPR properties, excellent structural stability and good catalytic activity. Furthermore, a plasmon-induced electromagnetic field enhancement effect greatly enhanced the catalytic activity of the nanostructures. This work provides new ideas and approaches for the design and development of highly active nanocatalysts.
诺贝尔金属纳米结构因其卓越的表面等离子体共振(SPR)效应而受到广泛研究和关注。为了调节其 SPR 特性和应用,精确控制贵金属纳米结构的形态和组成至关重要。金纳米棒(Au NRs)因其各向异性的形状和可调谐的等离子特性而成为研究热点之一。通过设计由 Au NRs 组成的各种异质结构和组装体,可以改善 SPR 效果并实现进一步的应用。本文以 Au NR 为基础,采用牺牲模板法制备了 Au NR @ Au-Ag 纳米框架。金属纳米结构与开放纳米结构的结合不仅保持了各组分的特性,还显示出协同效应,提高了复合纳米结构的性能。实验结果表明,该纳米结构具有可调的 SPR 特性、优异的结构稳定性和良好的催化活性。此外,等离子体诱导的电磁场增强效应大大提高了纳米结构的催化活性。这项工作为设计和开发高活性纳米催化剂提供了新的思路和方法。
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