化学
表面增强拉曼光谱
拉曼光谱
水溶液
限制
治疗药物监测
纳米技术
药品
毒品检测
组合化学
硫酸盐
信号(编程语言)
材料科学
药物开发
药物发现
生物物理学
氧化磷酸化
离子
作者
Aradhana Dwivedi,Jan Dellith,Anna A. Makarova,Samir F. El‐Mashtoly,Juergen Popp,Владимир Сиваков,Dana Cialla‐May
标识
DOI:10.1002/advs.202517092
摘要
Silver-based surface-enhanced Raman spectroscopy (SERS) substrates offer exceptional signal enhancement but suffer from poor long-term stability due to oxidative degradation, limiting their utility for real-world applications. Here, we introduce sulfate-directed silver dendrites (s-AgDs) as oxidation-resistant SERS substrates with extended shelf life, reproducible signal performance, and sub-picomolar sensitivity. Sulfate ions promote anisotropic growth and form a surface-associated sulfate layer, resulting in dendritic morphologies with high hot-spot density and suppressed surface oxidation. The AgDs demonstrate robust SERS performance over seven months under ambient conditions. We demonstrate translational utility by detecting five clinically relevant drugs in aqueous and blood plasma matrices with minimal pretreatment and excellent reproducibility. These results establish s-AgDs as a stable, reproducible, and application-ready SERS platform for point-of-care therapeutic drug monitoring.
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