Hybrid Co3O4/SnO2 Core-Shell Nanospheres as Real-Time Rapid-Response Sensors for Ammonia Gas

Wang Lili; Lou Zheng; Zhang Rui; Zhou Tingting; Deng Jianan; Zhang Tong

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Hybrid Co3O4/SnO2 Core-Shell Nanospheres as Real-Time Rapid-Response Sensors for Ammonia Gas

机译：混合Co3O4 / SnO2核壳纳米球作为用于氨气的实时快速响应传感器

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Novel hybrid Co3O4/SnO2 core shell nano spheres have been effectively realized by a one-step hydro thermal, template-free preparation-method. Our strategy involves a simple fabrication scheme that entails the. coating of natural cross-link agents followed by electrostatic interaction between the positive charges of Sn and Co ions and the negative charge of glutamic,acid. The core-shell architecture enables novel flexibility of gas sensor surfaces compared to commonly used bulk materials. The highly efficient charge transfer and unique structure are key to ensuring the availability of high response and rapid-response speed.. It demonstrates how hybrid cote shell nanospheres can be used as an advance function-material to fabricate electrical-sensing devices that may be useful as gas sensors.

机译：通过一步一步水热，无模板的制备方法，有效地实现了新型的Co3O4 / SnO2杂化核壳纳米球。我们的策略涉及一个简单的制造方案。涂覆天然交联剂，然后在Sn和Co离子的正电荷与谷氨酸的负电荷之间进行静电相互作用。与常用的散装材料相比，核壳结构使气体传感器表面具有新颖的灵活性。高效的电荷转移和独特的结构是确保获得高响应和快速响应速度的关键。.它证明了混合棚壳纳米球可如何用作先进功能材料来制造可能有用的电子传感设备作为气体传感器。

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《ACS applied materials & interfaces》 |2016年第10期|共7页
作者
Wang Lili; Lou Zheng; Zhang Rui; Zhou Tingting; Deng Jianan; Zhang Tong;
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正文语种 eng
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hybrid structure; Co3O4/SnO2; core-shell nanospheres; porous structure; fast response time; gas sensors;

机译：杂化结构;Co3O4 / SnO2;核壳纳米球;多孔结构;快速响应时间;气体传感器;
入库时间 2022-08-19 12:28:01

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1. Hybrid Co3O4/SnO2 Core-Shell Nanospheres as Real-Time Rapid-Response Sensors for Ammonia Gas [J] . Wang Lili, Lou Zheng, Zhang Rui, ACS applied materials & interfaces . 2016,第10期

机译：混合Co3O4 / SnO2核壳纳米球作为用于氨气的实时快速响应传感器
2. Synthesis and Characterization of Hybrid ZnO@Ag Core-Shell Nanospheres for Gas sensor Applications [J] . V.P. Dinesh, P.Biji, M.Kumaravel, Materials science forum . 2012,第期

机译：气体传感器应用杂化ZnO @ Ag核壳纳米球的合成与表征
3. Enhanced performance of core-shell structured polyaniline at helical carbon nanotube hybrids for ammonia gas sensor [J] . Xin Tian, Qiang Wang, Xiangnan Chen, Applied Physics Letters . 2014,第20期

机译：核-壳结构聚苯胺在螺旋形碳纳米管杂化物上的增强性能，用于氨气传感器
4. Synthesis and Characterization of Hybrid ZnO@Ag Core-Shell Nanospheres for Gas sensor Applications [C] . V.P. Dinesh, P.Biji, M.Kumaravel, Advances in metallic materials and manufacturing processes for strategic sectors . 2012

机译：气体传感器应用杂化ZnO @ Ag核壳纳米球的合成与表征
5. Sensing properties and mechanism of SnO2 room temperature gas sensors on nanostructured surfaces. [D] . Haizhou, Ren. 2015

机译：SnO2室温气体传感器在纳米结构表面上的传感特性和机理。
6. Hierarchical SnO2 Nanospheres: Bio-inspired Mineralization Vulcanization Oxidation Techniques and the Application for NO Sensors [O] . Lei Wang, Yuejiao Chen, Jianmin Ma, -1

机译：分层SnO2纳米球：生物启发的矿化硫化氧化技术以及NO传感器的应用
7. Core-shell structured nanospheres with mesoporous silica shell and Ni core as a stable catalyst for hydrolytic dehydrogenation of ammonia borane [O] . Hua Liu, Changyan Cao, Ping Li, 2014

机译：核 - 壳结构纳米球，具有中孔二氧化硅壳和Ni核作为氨硼烷水解脱氢的稳定催化剂

Hybrid Co3O4/SnO2 Core-Shell Nanospheres as Real-Time Rapid-Response Sensors for Ammonia Gas

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