Synthesis of porous micro-sphere ZnO and its excellent sensing properties to acetone

Bo Xiao-Qing; Liu Chang-Bai; Li Hai-Ying; Liu Li; Guo Xin; Liu Zhen; Liu Li-Li; Su Chang

doi:10.7498/aps.63.176803

Abstract

Porous micro-spheres of ZnO have been synthesized with Zn(NO3)26H2 O and urea as the raw materials and hexamine as a surfactant via a hydrothermal method. Structure, morphology, specific surface area, and pore size distribution of ZnO porous micro-sphere are characterized by X-ray diffraction, scanning electron microscopy, and micromeritics ASAP 2420 apparatus, respectively. Gas sensors are fabricated from the ZnO porous micro-spheres and their gas-sensing properties are measured. The gas sensitivity of sensor samples at different temperatures to acetone gas is examined. Results show that the sensitivity of ZnO porous micro-spheres sensors to 50 ppm acetone gas is 26.8 at 280 ℃, and the response and recovery durations are 4-10 seconds, respectively. Also, the sensor possesses an excelent selectivity for acetone.

Keywords:

Authors and contacts

1.
National Laboratory of Superhard Material, College of Physics, Jilin University, Changchun 130012, China;
2.
College of Electronic Science & Engineering, Jilin University, Changchun 130012, China
Funds: Project supported by the Jilin Provincial Science and Technology Department, China (Grant NO. 20140204027GX), and the Challenge Cup College Students' Extracurricular Academic Science and Technology Works, China (Grant No. 450060497053).

References

[1]	Wang C, Wang F F, Fu X Q, Zhang E D, Xu Z 2011 Chin. Phys. B 20 050701
[2]	Xu S, Yang Y, Wu H Y, Jiang C, Jing L Q, Shi K Y 2013 Journal of Inorganic Materials 28 584 (in Chinese)[徐爽, 杨颖, 邬洪源, 江超, 井立强, 史克英 2013 无机材料学报 28 584]
[3]
[4]	Wang X B, Cai W P, Liu S W, Wang G Z, Wu Z K, Zhao H J 2013 Colloids and Surfaces A: Physicochem. Eng. Aspects 422 199
[5]
[6]
[7]	Zhao X W, Gao X Y, Chen X M, Chen C, Zhao M K 2013 Chin. Phys. B 22 024202
[8]	Wei Y L, Huang Y F, Wu J H, Wang M, Guo C S, Dong Q, Yin S, Sato Tsugio 2013 Journal of Hazardous Materials 248249 202
[9]
[10]
[11]	Chen X M, Wang X X, Gao X Y, Zhao X W, Liu H T, Zhang S 2013 Acta Phys. Sin. 62 056104 (in Chinese)[2013 62 056104]
[12]
[13]	Zhang H M, Xu C, Sheng P K, Chen Y J, Yu L, Li Q H 2013 Sensors and Actuators B 181 99
[14]	Lv Y Z, Wang L F, Liao X X, Guo L, Li C R 2011 Journal of the Chinese Ceramic Society 39 1145
[15]
[16]
[17]	Ibupoto Z H, Jamal N, Khun K, Liu X, Willander M 2013 Sensors and Actuators B 182 104
[18]	Zeng Y, Lou Z, Wang L L, Zou B, Zhang T, Zheng W T, Zou G T 2011 Sensors and Actuators B 156 395
[19]
[20]	Wang H T, Wu T 2011 J. Mater. Chem. 21 15095
[21]
[22]
[23]	Sun Y, N George Ndifor-Angwafor, D Jason Riley, Michael N R Ashfold 2006 Chemical Physics Letters 431 352
[24]
[25]	Yu X, Song F, Zhai B, Zheng C T, Wang Y D 2013 Physica E 52 92
[26]
[27]	Li X B, Ma S Y, Li F M, Chen Y, Zhang Q Q, Yang X H, Wang C Y 2013 J. Materials Letters 100 119
[28]	You L M, Huo L H, Cheng X L, Zhao H, Gao S 2013 Electronic Components and Materials 32 13 (in Chinese)[由丽梅, 霍丽华, 程晓丽, 赵辉, 高山 2013 电子元件与材料 32 13]
[29]
[30]
[31]	Lim S K, Hwang S H, Chang D, Kim S 2010 Sensors and Actuators B 149 28
[32]
[33]	Zhang T, Qi Q, Liu K X, Liu L, Zhang L, Xu B K 2006 Trans. Nonferrous Met. Soc. China 16 780
[34]
[35]	Navale S T, Bandgar D K, Nalage S R, Khuspe G D, Chougule M A, Kolekar Y D, Sen S, Patil V B 2013 Ceramics International 39 6453
[36]
[37]	Chi X, Liu C B, Liu L, Li Y, Wang Z J, Bo X Q, Liu L L, Su C 2014 Sensors and Actuators B 194 33
[38]
[39]	Song P, Wang Q, Yang Z X 2012 Materials Letters 86 168
[40]
[41]	Wang D W, Du S S, Zhou X, Wang B, Ma J, Sun P, Sun Y F, Lu G Y 2013 Cryst. Eng. Comm. 15 7438

Cited By

[1]	Wang C, Wang F F, Fu X Q, Zhang E D, Xu Z 2011 Chin. Phys. B 20 050701
[2]	Xu S, Yang Y, Wu H Y, Jiang C, Jing L Q, Shi K Y 2013 Journal of Inorganic Materials 28 584 (in Chinese)[徐爽, 杨颖, 邬洪源, 江超, 井立强, 史克英 2013 无机材料学报 28 584]
[3]
[4]	Wang X B, Cai W P, Liu S W, Wang G Z, Wu Z K, Zhao H J 2013 Colloids and Surfaces A: Physicochem. Eng. Aspects 422 199
[5]
[6]
[7]	Zhao X W, Gao X Y, Chen X M, Chen C, Zhao M K 2013 Chin. Phys. B 22 024202
[8]	Wei Y L, Huang Y F, Wu J H, Wang M, Guo C S, Dong Q, Yin S, Sato Tsugio 2013 Journal of Hazardous Materials 248249 202
[9]
[10]
[11]	Chen X M, Wang X X, Gao X Y, Zhao X W, Liu H T, Zhang S 2013 Acta Phys. Sin. 62 056104 (in Chinese)[2013 62 056104]
[12]
[13]	Zhang H M, Xu C, Sheng P K, Chen Y J, Yu L, Li Q H 2013 Sensors and Actuators B 181 99
[14]	Lv Y Z, Wang L F, Liao X X, Guo L, Li C R 2011 Journal of the Chinese Ceramic Society 39 1145
[15]
[16]
[17]	Ibupoto Z H, Jamal N, Khun K, Liu X, Willander M 2013 Sensors and Actuators B 182 104
[18]	Zeng Y, Lou Z, Wang L L, Zou B, Zhang T, Zheng W T, Zou G T 2011 Sensors and Actuators B 156 395
[19]
[20]	Wang H T, Wu T 2011 J. Mater. Chem. 21 15095
[21]
[22]
[23]	Sun Y, N George Ndifor-Angwafor, D Jason Riley, Michael N R Ashfold 2006 Chemical Physics Letters 431 352
[24]
[25]	Yu X, Song F, Zhai B, Zheng C T, Wang Y D 2013 Physica E 52 92
[26]
[27]	Li X B, Ma S Y, Li F M, Chen Y, Zhang Q Q, Yang X H, Wang C Y 2013 J. Materials Letters 100 119
[28]	You L M, Huo L H, Cheng X L, Zhao H, Gao S 2013 Electronic Components and Materials 32 13 (in Chinese)[由丽梅, 霍丽华, 程晓丽, 赵辉, 高山 2013 电子元件与材料 32 13]
[29]
[30]
[31]	Lim S K, Hwang S H, Chang D, Kim S 2010 Sensors and Actuators B 149 28
[32]
[33]	Zhang T, Qi Q, Liu K X, Liu L, Zhang L, Xu B K 2006 Trans. Nonferrous Met. Soc. China 16 780
[34]
[35]	Navale S T, Bandgar D K, Nalage S R, Khuspe G D, Chougule M A, Kolekar Y D, Sen S, Patil V B 2013 Ceramics International 39 6453
[36]
[37]	Chi X, Liu C B, Liu L, Li Y, Wang Z J, Bo X Q, Liu L L, Su C 2014 Sensors and Actuators B 194 33
[38]
[39]	Song P, Wang Q, Yang Z X 2012 Materials Letters 86 168
[40]
[41]	Wang D W, Du S S, Zhou X, Wang B, Ma J, Sun P, Sun Y F, Lu G Y 2013 Cryst. Eng. Comm. 15 7438

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Vol. 63, Issue 17 - 2014-09-05

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