Enhanced Formaldehyde Sensing Performance Based on SnO2 Nanosheets/Titanium Carbide (MXene) Composites

机译：基于SnO2纳米片/碳化钛（MXENE）复合材料增强甲醛传感性能

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SnO2/MXene composites were synthesized by a facile hydrothermal method, where the SnO2 nanosheets grew evenly on the surface of MXene flakes. Compared with the pure SnO2, the 5% MXene-SnO2 based sensor displayed optimal formaldehyde sensing performance at a lower operating temperature of 160 °C. Furthermore, the sensor with 5% MXene-SnO2 also showed high response, good selectivity, excellent reproducibility, and a good linearity over the concentration of 1–100 ppm.

机译：sno. 2 / mxene复合材料通过容易的水热法合成，其中SNO 2 纳米片在蒙薄片表面上均匀增长。与纯粹的SnO相比 2 ，5％mxene-sno 2 基于传感器显示在160°C的较低工作温度下最佳的甲醛感测性能。此外，传感器具有5％mxene-sno 2 还表现出高响应，良好的选择性，优异的再现性，以及浓度的浓度为1-100ppm的良好线性。

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《International Conference on Solid-State Sensors, Actuators and Microsystems》|2021年|831-834|共4页
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Gaoqiang Niu; Rajendran Ramachandran; Changhui Zhao; Fei Wang;
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Temperature sensors; Micromechanical devices; Actuators; Transducers; Temperature; Nanocomposites; Linearity;

机译：温度传感器;微机械装置;执行器;换能器;温度;纳米复合材料;线性;

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Enhanced Formaldehyde Sensing Performance Based on SnO2 Nanosheets/Titanium Carbide (MXene) Composites

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