用于在高湿度水平下增强质子传导和气体传感的钙钛矿氧化物LaTiO纳米片的钇掺杂

Yttrium Doping of Perovskite Oxide LaTiO Nanosheets for Enhanced Proton Conduction and Gas Sensing Under HighHumidity Levels.

作者信息

Wang Jian, Sun Caicai, Bao Jusheng, Yang Zhiwei, Zhang Jian, Huang Xiao

机构信息

Institute of Advanced Materials (IAM), School of Flexible Electronics (SoFE), Nanjing Tech University (NanjingTech), 30 South Puzhu Road, Nanjing 211816, China.

出版信息

Sensors (Basel). 2025 Feb 2;25(3):901. doi: 10.3390/s25030901.

DOI:10.3390/s25030901

PMID:39943540

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11819912/

Abstract

Water molecules from the environment or human breath are one of the main factors affecting the accuracy, efficiency, and long-term stability of electronic gas sensors. In this contribution, yttrium (Y)-doped LaTiO (LTO) nanosheets were synthesized by a hydrothermal reaction, demonstrating improved proton conductivity compared to their non-doped counterparts. The response of Y-doped LTO with the optimal doping concentration to 100 ppm NO at 43% relative humidity (RH) was -21%, which is four times higher than that of bare LaTiO. As the humidity level increased to 75%, the response of Y-doped LTO further increased to -64%. Unlike the gas doping effect observed in previous studies of semiconducting metal oxides, the sensing mechanism of Y-doped LTO nanosheets is based on the enhanced dissociation of HO in the presence of target NO molecules, leading to the generation of more protons for ion conduction. This also resulted in a greater resistance drop and thus a larger sensing response at elevated humidity levels. Our work demonstrates that proton-conductive oxide materials are promising gas-sensing materials under humid conditions.

摘要

来自环境或人体呼出的水分子是影响电子气体传感器准确性、效率和长期稳定性的主要因素之一。在本研究中，通过水热反应合成了钇（Y）掺杂的钛酸镧（LTO）纳米片，与未掺杂的同类材料相比，其质子传导率有所提高。在相对湿度（RH）为43%时，具有最佳掺杂浓度的Y掺杂LTO对100 ppm NO的响应为-21%，这是未掺杂的钛酸镧的四倍。当湿度水平增加到75%时，Y掺杂LTO的响应进一步增加到-64%。与之前对半导体金属氧化物的研究中观察到的气体掺杂效应不同，Y掺杂LTO纳米片的传感机制基于在目标NO分子存在下HO解离的增强，从而产生更多用于离子传导的质子。这也导致了更大的电阻下降，因此在较高湿度水平下具有更大的传感响应。我们的工作表明，质子传导氧化物材料在潮湿条件下是有前途的气敏材料。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1533/11819912/53eff3e45415/sensors-25-00901-g001.jpg

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用于在高湿度水平下增强质子传导和气体传感的钙钛矿氧化物LaTiO纳米片的钇掺杂

Yttrium Doping of Perovskite Oxide LaTiO Nanosheets for Enhanced Proton Conduction and Gas Sensing Under HighHumidity Levels.

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