Low-cost domestic microwave synthesis of SnO2/CuO nanostructure for ethanol detection

IF 4 Q2 NANOSCIENCE & NANOTECHNOLOGY

Micro and Nano Systems Letters Pub Date : 2025-12-23 DOI:10.1186/s40486-025-00247-z

Pitchanunt Chaiyo, Mohamed Ahmed Belal, Sugato Hajra, Swati Panda, Premkumar Sharad Bhosale, Hohyun Keum, Hoe Joon Kim

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Abstract

Low-cost preparation of nanostructured materials is one of the important factors for the commercialization of sensors. This study reports the sustainable and low-cost synthesis of pure SnO₂ and SnO₂-CuO nanostructures using a domestic microwave annealing approach. The material obtained was structurally examined using X-ray diffraction and a scanning electron microscope. The pure SnO₂ and SnO₂-CuO inks were deposited over laser-induced graphene interdigitated electrodes. Towards the volatile organic compounds, the pure SnO₂ and SnO₂-CuO went through ethanol sensing. The SnO₂-CuO-based sensor demonstrated strong response and selectivity for detecting ethanol at room temperature with a response of 11%, a response time of 53 s, and a recovery time of 64 s at 100 ppm of ethanol. The high response and selectivity of the sensor towards ethanol make it ideal for continuous tracking in both environmental and industrial settings.

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低成本国产微波合成SnO2/CuO纳米结构乙醇检测

低成本制备纳米结构材料是传感器实现商业化的重要因素之一。本研究报道了利用国内微波退火方法可持续低成本合成纯SnO2和SnO2- cuo纳米结构。用x射线衍射和扫描电子显微镜对所得材料进行了结构检查。在激光诱导的石墨烯交错电极上沉积了纯SnO2和SnO2- cuo油墨。对于挥发性有机物，纯SnO2和SnO2- cuo通过乙醇感应。sno2 - cuo基传感器在室温条件下对乙醇的检测具有较强的响应性和选择性，响应率为11%，响应时间为53 s，在100 ppm乙醇条件下的恢复时间为64 s。该传感器对乙醇的高响应和选择性使其成为环境和工业环境中连续跟踪的理想选择。

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