用于超低浓度壬醛传感的修饰诱导氧空位工程：以镧修饰的碱式碳酸铋为例

Decorated-Induced Oxygen Vacancy Engineering for Ultra-Low Concentration Nonanal Sensing: A Case Study of La-Decorated BiOCO.

作者信息

Zheng Zichen, Liu Kewei, Zhou Yiwen, Xu Kaichun, Luo Yifan, Ding Jiabao, Bittencourt Carla, Debliquy Marc, Zhang Chao

机构信息

College of Mechanical Engineering, Yangzhou University, Yangzhou, 225127, P. R. China.

Research Institute for Materials Science and Engineering, Chimie des Interactions Plasma-Surface, University of Mons, 20 Place du Parc, Mons, 7000, Belgium.

出版信息

Adv Sci (Weinh). 2024 Nov;11(43):e2408096. doi: 10.1002/advs.202408096. Epub 2024 Sep 28.

DOI:10.1002/advs.202408096

PMID:39340830

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11578350/

Abstract

La-decorated BiOCO (BCO-La) microspheres are synthesized using a facile wet chemical strategy for sensing low-concentration nonanal (CHO) at room temperature. These BCO-La gas sensors are applied to evaluate agricultural product quality, specifically for cooked rice. The sensitivity of the BCO-6La sensor significantly surpassed that of the pure BCO sensor, achieving a response value of 174.6 when detecting 30 ppm nonanal gas. Notably, the BCO-6La sensor demonstrated a faster response time (36 s) when exposed to 18 ppm of nonanal. Additionally, the selectivity toward nonanal gas detection is higher (approximately 4-24 times) compared to interfering gases (1-octanol, geranyl acetone, linalool, hexanal, 2-pentyfuran, and 1-octen-3-ol) during cooked rice quality detection. The gas sensing mechanism and the factors contributing to the enhanced sensing performance of the BCO-La microspheres are demonstrated through in situ FT-IR spectra and DFT analysis while the realistic detection scenario is carried out. In a broader context, the reported sensors here represent a novel platform for the detection and monitoring of gases released by agricultural products during storage.

摘要

采用简便的湿化学策略合成了镧修饰的BiOCO（BCO-La）微球，用于在室温下检测低浓度壬醛（CHO）。这些BCO-La气体传感器用于评估农产品质量，特别是用于检测米饭。BCO-6La传感器的灵敏度显著超过纯BCO传感器，在检测30 ppm壬醛气体时响应值达到174.6。值得注意的是，BCO-6La传感器在暴露于18 ppm壬醛时显示出更快的响应时间（36秒）。此外，在米饭质量检测过程中，与干扰气体（1-辛醇、香叶基丙酮、芳樟醇、己醛、2-戊基呋喃和1-辛烯-3-醇）相比，对壬醛气体检测的选择性更高（约4-24倍）。通过原位傅里叶变换红外光谱和密度泛函理论分析，在实际检测场景中展示了气体传感机制以及导致BCO-La微球传感性能增强的因素。在更广泛的背景下，这里报道的传感器代表了一个用于检测和监测农产品在储存过程中释放的气体的新型平台。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/517a/11578350/cb00d48c37c9/ADVS-11-2408096-g007.jpg

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用于超低浓度壬醛传感的修饰诱导氧空位工程：以镧修饰的碱式碳酸铋为例

Decorated-Induced Oxygen Vacancy Engineering for Ultra-Low Concentration Nonanal Sensing: A Case Study of La-Decorated BiOCO.

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