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Synthesis, Characterization, and m-Xylene Sensing Properties of Co–ZnO Composite Nanofibers

Authors


  • W. Mullins—contributing editor

  • This work was financially supported by the Department of Environmental Protection of Jilin Province (No. 2009-22), Jilin Provincial Science & Technology Department (No. 20100344), and the national innovation experiment program for university students (No. 2009C65125 and 2010C65188).

†Author to whom correspondence should be addressed. e-mail: liul99@jlu.edu.cn

Abstract

Co–ZnO composite nanofibers (0, 0.2, 0.4, and 0.8 wt%) are synthesized by electrospinning and calcination techniques. The fiber diameters are found to decrease by increasing the Co content in the ZnO nanofibers. The m-xylene sensing properties of the ZnO nanofibers are effectively enhanced with appropriate Co amount. The best sensing properties are found based on the 0.4 wt% Co–ZnO composite nanofibers at 320°C. The corresponding response is up to 14.8 when the sensor is exposed to 100 ppm m-xylene, and the response and recovery times are about 4 and 6 s, respectively. Moreover, excellent selectivity is also observed in the sensing investigation. The results make Co–ZnO composite nanofibers good candidates for fabricating high performance m-xylene sensors.

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