Design of Metal Aerogels-Based 3D SERS Substrates by Gentle Compression

Lin Zhou; Yu Liu; Yanli Li; Chunlei Long; Shujin Zhou; René Hübner; Yueqi Li; Geng Xue; Dejun Lin; Weigao Xu; Yue Hu; Ran Du

doi:10.1002/adfm.202412006

Design of Metal Aerogels-Based 3D SERS Substrates by Gentle Compression

Lin Zhou, Yu Liu, Yanli Li, Chunlei Long, Shujin Zhou, René Hübner, Yueqi Li, Geng Xue, Dejun Lin, Weigao Xu^*, Yue Hu^*, Ran Du^*

^*此作品的通讯作者

材料学院

科研成果: 期刊稿件 › 文章 › 同行评审

7 引用（Scopus）

摘要

Metal aerogels (MAs) are emerging all-nanometal-structured self-standing porous materials featuring exceptional performances in diverse fields. They have recently been adopted as 3D surface-enhanced Raman scattering (SERS) substrates, while the less utilization of the unique porous structure leads to limited performance. Here, a fascinating compression-mediated regulation strategy is presented to largely boost the SERS performance of Au–Ag aerogels. By gently pressing, both the density of hot spots and the inter-ligament distance can be efficiently modulated, thus enabling to flexibly manipulate the SERS properties of MAs. On this basis, a record-high misfocus tolerance (∼8.8 mm), low detection limit (down to 0.1 nM), high stability (>1 month), reusability, and multiplex detection ability are concurrently realized. This study may point out a new direction for engineering 3D SERS substrates with tunable and exceptional performance.

源语言	英语
文章编号	2412006
期刊	Advanced Functional Materials
卷	35
期	1
DOI	http://doi.org/10.1002/adfm.202412006
出版状态	已出版 - 2 1月 2025

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title = "Design of Metal Aerogels-Based 3D SERS Substrates by Gentle Compression",

abstract = "Metal aerogels (MAs) are emerging all-nanometal-structured self-standing porous materials featuring exceptional performances in diverse fields. They have recently been adopted as 3D surface-enhanced Raman scattering (SERS) substrates, while the less utilization of the unique porous structure leads to limited performance. Here, a fascinating compression-mediated regulation strategy is presented to largely boost the SERS performance of Au–Ag aerogels. By gently pressing, both the density of hot spots and the inter-ligament distance can be efficiently modulated, thus enabling to flexibly manipulate the SERS properties of MAs. On this basis, a record-high misfocus tolerance (∼8.8 mm), low detection limit (down to 0.1 nM), high stability (>1 month), reusability, and multiplex detection ability are concurrently realized. This study may point out a new direction for engineering 3D SERS substrates with tunable and exceptional performance.",

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T1 - Design of Metal Aerogels-Based 3D SERS Substrates by Gentle Compression

AU - Zhou, Lin

AU - Liu, Yu

AU - Li, Yanli

AU - Long, Chunlei

AU - Zhou, Shujin

AU - Hübner, René

AU - Li, Yueqi

AU - Xue, Geng

AU - Lin, Dejun

AU - Xu, Weigao

AU - Hu, Yue

AU - Du, Ran

PY - 2025/1/2

Y1 - 2025/1/2

N2 - Metal aerogels (MAs) are emerging all-nanometal-structured self-standing porous materials featuring exceptional performances in diverse fields. They have recently been adopted as 3D surface-enhanced Raman scattering (SERS) substrates, while the less utilization of the unique porous structure leads to limited performance. Here, a fascinating compression-mediated regulation strategy is presented to largely boost the SERS performance of Au–Ag aerogels. By gently pressing, both the density of hot spots and the inter-ligament distance can be efficiently modulated, thus enabling to flexibly manipulate the SERS properties of MAs. On this basis, a record-high misfocus tolerance (∼8.8 mm), low detection limit (down to 0.1 nM), high stability (>1 month), reusability, and multiplex detection ability are concurrently realized. This study may point out a new direction for engineering 3D SERS substrates with tunable and exceptional performance.

AB - Metal aerogels (MAs) are emerging all-nanometal-structured self-standing porous materials featuring exceptional performances in diverse fields. They have recently been adopted as 3D surface-enhanced Raman scattering (SERS) substrates, while the less utilization of the unique porous structure leads to limited performance. Here, a fascinating compression-mediated regulation strategy is presented to largely boost the SERS performance of Au–Ag aerogels. By gently pressing, both the density of hot spots and the inter-ligament distance can be efficiently modulated, thus enabling to flexibly manipulate the SERS properties of MAs. On this basis, a record-high misfocus tolerance (∼8.8 mm), low detection limit (down to 0.1 nM), high stability (>1 month), reusability, and multiplex detection ability are concurrently realized. This study may point out a new direction for engineering 3D SERS substrates with tunable and exceptional performance.

KW - 3D SERS substrates

KW - compression-mediated

KW - metal aerogels

KW - SERS

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DO - 10.1002/adfm.202412006

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SN - 1616-301X

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JO - Advanced Functional Materials

JF - Advanced Functional Materials

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ER -

Design of Metal Aerogels-Based 3D SERS Substrates by Gentle Compression

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