TAILIEUCHUNG - On-chip Zno nanofibers prepared by electrospinning method for no2 gas detection
The findings show that spider-net like ZnO nanofibers with a diameter of 60 – 100 nm were successfully synthesized without any incorporation of impurities into the nanofibers. The FESEM images also reveal that each nanofiber is composed of many nanograins. The combination of experimental and calculated X-ray diffraction data indicate that ZnO nanofibers were crystallized in hexagonal wurtzite structure. | Communications in Physics, Vol. 27, No. 4 (2017), pp. 317-326 DOI: ON-CHIP ZnO NANOFIBERS PREPARED BY ELECTROSPINNING METHOD FOR NO2 GAS DETECTION NGUYEN VAN HOANG1,2 , NGUYEN VAN DUNG1 , DO QUANG DAT1 , QUAN THI MINH NGUYET1 , CHU MANH HUNG1,† AND NGUYEN VAN HIEU1,† 1 International Training Institute for Materials Science (ITIMS), Hanoi University of Science and Technology (HUST), No. 1, Dai Co Viet Street, Hanoi, Vietnam 2 Department of Materials Science and Engineering, Le Quy Don Technical University, No. 236 Hoang Quoc Viet Stress, Hanoi, Vietnam † E-mail: mhchu@; hieu@ Received 17 November 2017 Accepted for publication 20 December 2017 Published 31 December 2017 Abstract. In the present study, on-chip ZnO nanofibers were fabricated by means of the electrospinning technique followed by a calcination process at 600˚C towards the gas sensor application. The morphology, composition, and crystalline structure of the as-spun and annealed ZnO nanofibers were investigated by field emission scanning electron microscopy (FESEM), energy dispersive X-ray (EDX), and X-ray diffraction (XRD), respectively. The findings show that spider-net like ZnO nanofibers with a diameter of 60 – 100 nm were successfully synthesized without any incorporation of impurities into the nanofibers. The FESEM images also reveal that each nanofiber is composed of many nanograins. The combination of experimental and calculated X-ray diffraction data indicate that ZnO nanofibers were crystallized in hexagonal wurtzite structure. For the gas sensing device application, the ZnO nanofibers-based sensors were tested with the nitrogen dioxide gas in the temperature range of 200˚C to 350˚C and concentrations from ppm to 10 ppm. The sensing property results indicate that at the optimal working temperature of 300˚C the ZnO nanofibers-based sensors exhibited a maximum response of 30 and 166 times on exposure of and 10 ppm NO2 gas, .
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