Asymmetric AgPd-AuNR heterostructure with enhanced photothermal performance and SERS activity

Zhang Han; Liu Zeke; Kang XiaolinGuo JunMa WanliCheng Si

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Asymmetric AgPd-AuNR heterostructure with enhanced photothermal performance and SERS activity

机译：不对称AgPd-AuNR异质结构与提高光热光谱分析性能和ser活动

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Most as-reported nanostructures through galvanic replacement reactions are still symmetric hollow structures, until now. Asymmetric structures fabricated through a galvanic replacement reaction have been rarely reported. However, asymmetric heterostructures can generally lead to new intriguing properties through asymmetric synergistic coupling. Here, we report a simple synthesis of an asymmetric one-ended AgPd bimetal on Au nanorods (AuNR) by combining a galvanic replacement reaction with an Ostwald ripening process. The morphological evolution from a nanodumbbell to a dandelion structure is thoroughly investigated. The unique asymmetric AgPd-AuNR heterostructures possess the required plasmonic performance and avoid strong damping caused by the poor plasmonic metal Pd, resulting in a superior photothermal heating performance and enhanced SERS sensitivity for in situ monitoring of a catalytic reaction compared with the symmetric counterparts.

机译：通过电最所锺爱的纳米结构置换反应仍然是对称的空洞结构,直到现在。通过电替代捏造反应已经很少报道。不对称的异质结构通常会导致通过不对称新的有趣的属性协同耦合。合成的非对称结束AgPd双金属金纳米棒(AuNR)通过结合电奥斯特瓦尔德成熟置换反应的过程。nanodumbbell蒲公英结构彻底调查。AgPd-AuNR异质结构拥有所需的电浆性能和避免强烈的阻尼穷人造成的电浆金属Pd,结果在一个优越的光热光谱分析加热性能和增强原位ser敏感性监测与催化反应对称的。

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来源
《Nanoscale》 |2016年第4期|2242-2248|共7页
作者
Zhang Han; Liu Zeke; Kang XiaolinGuo JunMa WanliCheng Si;
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作者单位

Soochow Univ, Inst Funct Nano & Soft Mat FUNSOM, Suzhou 215123, Jiangsu, Peoples R China;

Soochow Univ, Testing & Anal Ctr, Suzhou 215123, Jiangsu, Peoples R China;

Soochow Univ, Coll Chem Chem Engn & Mat Sci, Suzhou 215123, Jiangsu, Peoples R China;

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正文语种英语
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Heterostructures; CENTROSYMMETRIC; Taraxacum officinaleheavy dampingHollow StructuresBimetalsTaraxacumREACTIONOstwald ripening;

机译：异质结构;中心对称的蒲公英officinaleheavy dampingHollowStructuresBimetalsTaraxacumREACTIONOstwald成熟;

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Asymmetric AgPd-AuNR heterostructure with enhanced photothermal performance and SERS activity

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