材料科学
三甲胺
介孔材料
双金属片
纳米技术
检出限
纳米花
吸附
化学工程
纳米传感器
氧传感器
催化作用
多孔性
传质
生物传感器
灵敏度(控制系统)
扩散
作者
Xingyu Wang,Zixuan Zheng,Weihao Wu,Haijie Cai,Yayao Song,Haixia Zhou,Zhaohuan Zhang,Yong Zhao,Keheng Zhu,Yongheng Zhu
出处
期刊:Small
[Wiley]
日期:2026-03-20
卷期号:: e13448-e13448
标识
DOI:10.1002/smll.202513448
摘要
ABSTRACT Highly sensitive detection of trimethylamine (TMA) concentration in complex monitoring environments is a pivotal technology for food freshness assessment. Herein, through an active‐site engineering strategy, PdRu‐modified hierarchical In 2 O 3 nanoflowers were successfully prepared by self‐assembly of mesoporous nanosheets. The 3D interconnected pore system significantly promotes the diffusion and mass transfer of TMA, while notably enhancing the interfacial collision efficiency in gas‐sensitive reactions. The PdRu/In 2 O 3 ‐1.0‐based sensor exhibits a sensitivity of 71.9 at 50 ppm, with a detection limit of 200 ppb, while optimizing the operating temperature range from 200°C to 140°C. Simultaneously, machine learning‐based analysis confirms the high selectivity, enabling it to identify TMA in ammonia‐containing binary mixtures with an accuracy quantified at 99.3%. Furthermore, density functional theory calculations combined with in situ/ex situ characterizations revealed that bimetallic oxygen spillover effects optimize oxygen transfer kinetics, reduce the activation energy barrier, and collectively enhance the trimethylamine adsorption energy (ΔE ads = ‐0.51 eV) through orbital hybridization and charge redistribution mechanisms. Leveraging the advanced sensing strategy, the wireless portable sensing system is engineered for the rapid and non‐destructive evaluation of seafood freshness, enabling quality detection and cloud data transmission throughout the entire industry chain.
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