Bifunctional Sensing Mechanism of SnO2-ZnO Composite Nanofibers for Drastically Enhancing the Sensing Behavior in H-2 Gas

Katoch Akash; Kim Jae-Hun; Kwon Yong Jung; Kim Hyoun Woo; Kim Sang Sub

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Bifunctional Sensing Mechanism of SnO2-ZnO Composite Nanofibers for Drastically Enhancing the Sensing Behavior in H-2 Gas

机译：SnO2-ZnO复合纳米纤维的双功能传感机理可大大增强H-2气体中的传感行为

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SnO2-ZnO composite nanofibers fabricated using an electrospinning method exhibited exceptional hydrogen (H-2) sensing behavior. The existence of tetragonal SnO2 and hexagonal ZnO nanograins was confirmed by an analysis of the crystalline phase of the composite nanofibers. A bifunctional sensing mechanism of the composite nanofibers was proposed in which the combined effects of SnO2-SnO2 homointerfaces and ZnO-SnO2 heterointerfaces contributed to an improvement in the H-2 sensing characteristics. The sensing process with respect to SnO2-ZnO heterojunctions is associated not only with the high barrier at the junctions, but also the semiconductor-to-metallic transition on the surface of the ZnO nanograins upon the introduction of H-2 gas.

机译：使用静电纺丝法制备的SnO2-ZnO复合纳米纤维表现出优异的氢（H-2）传感性能。通过分析复合纳米纤维的晶相，确认了四方SnO2和六方ZnO纳米颗粒的存在。提出了一种复合纳米纤维的双功能传感机制，其中SnO2-SnO2均质界面和ZnO-SnO2异质界面的联合作用有助于改善H-2传感特性。关于SnO2-ZnO异质结的感测过程不仅与结处的高势垒有关，而且还与引入H-2气体后ZnO纳米晶粒表面上的半导体到金属的转变有关。

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《ACS applied materials & interfaces》 |2015年第21期|共8页
作者
Katoch Akash; Kim Jae-Hun; Kwon Yong Jung; Kim Hyoun Woo; Kim Sang Sub;
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正文语种 eng
中图分类化学工业;
关键词
composite nanofibers; SnO2; ZnO; sensors; hydrogen;

机译：复合纳米纤维;SnO2;ZnO;传感器;氢;

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1. Bifunctional Sensing Mechanism of SnO2-ZnO Composite Nanofibers for Drastically Enhancing the Sensing Behavior in H-2 Gas [J] . Katoch Akash, Kim Jae-Hun, Kwon Yong Jung, ACS applied materials & interfaces . 2015,第21期

机译：SnO2-ZnO复合纳米纤维的双功能传感机理可大大增强H-2气体中的传感行为
2. Sensing behavior to ppm-level gases and synergistic sensing mechanism in metal-functionalized rGO-loaded ZnO nanofibers [J] . Zain Ul Abideen, Jae-Hun Kim, Ali Mirzaei, Sensors and Actuators . 2018,第pta2期

机译：金属功能化的rGO负载的ZnO纳米纤维对ppm级气体的传感行为和协同传感机制
3. Rational design and in situ growth of SnO2/CMF composites: insightful understanding of the formaldehyde gas sensing mechanism and enhanced gas sensing properties [J] . Li Yuxi, Luo Na, Zhang Wenshuang, Journal of Materials Chemistry, C. materials for optical and electronic devices . 2020,第36期

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5. Modeling Transversal Support from Nanofiber Z-Threads to a Carbon Fiber by Finite Element Analysis of Multiple Carbon Fiber Reinforced Plastic (CFRP) Composite Unit Cells: A Potential Mechanism to Enhance Carbon Fiber Compressive Stability [D] . Kim, Keonhyeong 2019

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6. Environment-Friendly Zinc Oxide Nanorods-Grown Cellulose Nanofiber Nanocomposite and Its Electromechanical and UV Sensing Behaviors [O] . Lindong Zhai, Hyun-Chan Kim, Ruth M. Muthoka, 2021

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Bifunctional Sensing Mechanism of SnO2-ZnO Composite Nanofibers for Drastically Enhancing the Sensing Behavior in H-2 Gas

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