2D SnSe2 micro-flower decorated with 0D In2O3 nanoparticles for low-temperature low-concentration TEA detection

Li Wang, Jianpeng Li, Cheng Xu, Ziqin Yang, Xiangyun Tan, Zhihu Dong, Li Xu, Dongwei Zhang, Chunqing He
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Abstract

Triethylamine, a crucial industrial raw material, poses significant threats to both the ecosystem and human health. However, detecting lower concentrations of TEA remains an arduous task. In this study, we report the facile hydrothermal and ultrasonic treatment synthesis of 2D SnSe micro-flower modified with 0D InO nanoparticles to form SnSe/InO heterojunctions for the first time. The SnSe/InO sensor has a response value of 4.86 for 10 ​ppm TEA gas at 120 ​°C, with response and recovery times of 18 ​s and 79 ​s respectively, and detection limits as low as 100 ​ppb. In addition, the SnSe/InO sensor is essentially unaffected by humidity in the 30% RH to 60% RH range, and the SnSe/InO sensor response value decreases slightly in the 70% RH to 97% RH range, demonstrating excellent humidity tolerance. More importantly, the sensor maintained excellent cyclic-stability performance during a four-month cyclic stability test. The improved gas-sensitive performance can be attributed to the large number of n-n heterojunctions in the SnSe/InO material, which enhances the interfacial charge transfer, as well as the active-sites on the material surface. This work serves as a valuable complement to the TEA gas sensor and holds significant potential for detecting low concentrations of TEA at low temperatures in environmental sensing applications.
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用 0D In2O3 纳米粒子装饰的二维 SnSe2 微花,用于低温低浓度三乙醇胺检测
三乙胺是一种重要的工业原料,对生态系统和人类健康都构成重大威胁。然而,检测较低浓度的三乙胺仍然是一项艰巨的任务。在这项研究中,我们首次报道了用 0D InO 纳米粒子修饰二维 SnSe 微花,形成 SnSe/InO 异质结的简便水热和超声处理合成方法。SnSe/InO 传感器在 120 °C 下对 10 ppm 三乙醇胺气体的响应值为 4.86,响应时间和恢复时间分别为 18 秒和 79 秒,检测限低至 100 ppb。此外,在 30% 相对湿度至 60% 相对湿度范围内,SnSe/InO 传感器基本上不受湿度的影响,而在 70% 相对湿度至 97% 相对湿度范围内,SnSe/InO 传感器的响应值会略有下降,这表明该传感器具有出色的耐湿性。更重要的是,该传感器在为期四个月的循环稳定性测试中保持了出色的循环稳定性能。气敏性能的提高可归因于 SnSe/InO 材料中大量的 n-n 异质结增强了界面电荷转移,以及材料表面的活性位点。这项工作是对三乙醇胺气体传感器的重要补充,在环境传感应用中低温检测低浓度三乙醇胺方面具有巨大潜力。
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