High-Stability Printable Perovskite SERS Substrates in an Aqueous Environment via Plasmon-Induced Resonance Energy Transfer

材料科学 表面等离子共振 钙钛矿(结构) 基质(水族馆) 等离子体子 纳米技术 共振(粒子物理) 光电子学 纳米颗粒 化学工程 粒子物理学 海洋学 物理 地质学 工程类
作者
Minghui Niu,Chengwei Shan,Chenlong Xue,Xiaowei Xu,Aoyan Zhang,Yihong Xiao,Junyu Wei,Defeng Zou,Jinna Chen,Aung Ko Ko Kyaw,Perry Ping Shum
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:17 (9): 13538-13551 被引量:6
标识
DOI:10.1021/acsami.4c21069
摘要

The excellent photoelectric conversion efficiency and tunable bandgap of metal halide perovskites make them highly suitable for SERS applications. However, the low stability of perovskites in water and oxygen greatly hinders their use in SERS detection, particularly in biomolecule detection applications, which often require water-based test solutions. Herein, we report a gold (Au)/perovskite-polyvinylidene difluoride (PVDF) nanocomposite/ZnO nanoflower (GPPZ) SERS substrate capable of functioning in aqueous solutions. Its enhancement ability is attributed to plasmon-induced resonance energy transfer (PIRET) and an electromagnetic mechanism. The surface plasmon resonance created by ultrathin Au and ZnO nanoflowers induces resonance energy transfers to the perovskite via PIRET, facilitating a quasi-matched charge transfer between the perovskite and the probe molecule. The PVDF coating protects the perovskite from water and oxygen without affecting the resonance energy-transfer process. As a result, an enhancement factor (EF) approaching 1 × 106 was achieved for the crystal violet molecule. Additionally, we fabricated a flexible GPPZ substrate using silk screen printing, enabling mass production of an SERS array substrate. The printed flexible GPPZ substrates demonstrated micromole-level cysteine detection with an EF of 6.8 × 105, showing potential for application in hyperhomocysteinemia diagnosis.
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