Ultrasonic and microwave-assisted hydrothermal synthesis of zinc oxide-based nanocomposite particles for gas sensing and transmission
Ultrasonic and microwave synthesis of nano gas-sensitive materials for efficient environmental gas monitoring.
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Key innovations
The innovation lies in using ultrasonic microwave hydrothermal methods to prepare multi-faceted ZnO-based nanocomposites, and building p-n junctions and catalytic sites through composite doping, significantly improving gas sensing properties.
Potential economic benefits
Improving gas sensitivity can be effectively applied to environmental monitoring and industrial safety, reduce pollution and accident risks, reduce operating costs, improve efficiency, and create new market and economic value.
Potential climate benefits
Ultrasound/microwave-assisted synthesis has low energy consumption and reduces the carbon footprint of material production. High-performance gas sensing can help accurately monitor greenhouse gases and pollutants, optimize industrial processes, and achieve indirect carbon reduction.
Solution supplier
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Zhu Yufang
Zhu Yufang: Focus on artificial intelligence and data science, provide innovative technical services, and promote industrial intelligence upgrading.
China
Solution details
Nanocomposite particles such as ZnO, Cr@ZnO, and CoO@ZnO with different appearance were prepared using ultrasonic and microwave-assisted hydrothermal synthesis methods. Through compounding and doping modification, p-n junctions were built and catalytic active sites were formed respectively to improve gas sensing properties.
Last updated
08:25:39, Nov 05, 2025
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