Gas Sensor Based on Graphene Oxide-Coated Hollow Microbubble Whisper Gallery Resonant Mode

Yize Liu; Junfeng Jiang; Kun Liu; Shuang Wang; Yixuan Wang; Xin Chen; Tiegen Liu

doi:10.3788/AOS231920

Journals >Acta Optica Sinica >Volume 44 >Issue 7 >Page 0728004 > Article

Acta Optica Sinica
Vol. 44, Issue 7, 0728004 (2024)

Gas Sensor Based on Graphene Oxide-Coated Hollow Microbubble Whisper Gallery Resonant Mode

Yize Liu^1、2、3, Junfeng Jiang^{1、2、3、*}, Kun Liu^1、2、3, Shuang Wang^1、2、3, Yixuan Wang^1、2、3, Xin Chen^1、2、3, and Tiegen Liu^1、2、3

Author Affiliations

¹School of Precision Instrument and Optoelectronics Engineering, Tianjin University, Tianjin 300072, China

²Key Laboratory of the Ministry of Educatiom on Optoelectronic Information Technology, Tianjin 300072, China

³Institute of Optical Fiber Sensing, Tianjin University, Tianjin 300072, China

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DOI: 10.3788/AOS231920 Cite this Article Set citation alerts

Yize Liu, Junfeng Jiang, Kun Liu, Shuang Wang, Yixuan Wang, Xin Chen, Tiegen Liu. Gas Sensor Based on Graphene Oxide-Coated Hollow Microbubble Whisper Gallery Resonant Mode[J]. Acta Optica Sinica, 2024, 44(7): 0728004 Copy Citation Text

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Fig. 1. Schematic diagram of GO coated hollow microsphere cavity gas sensor

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Fig. 2. Schematic diagram of fabrication steps for GO coated hollow microsphere cavity gas sensor

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Fig. 3. Schematic diagram of gas sensing experimental device based on GO coated microsphere cavity

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$Experimental test results of spectra of WGM with GO coated microsphere drifting with volume fraction. (a) Spectra of WGM with GO coated microsphere measured at different volume fraction of NH3; (b) center wavelength shift curves$

Fig. 4. Experimental test results of spectra of WGM with GO coated microsphere drifting with volume fraction. (a) Spectra of WGM with GO coated microsphere measured at different volume fraction of NH₃; (b) center wavelength shift curves

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$Experimental test results of spectra of WGM with GO coated microsphere drifting with gas volume fraction at low volume fraction. (a) Center wavelength of WGM sensor resonance peak measured at different volume fraction of NH3; (b) drift curve of center wavelength and standard deviation for each volume fraction$

Fig. 5. Experimental test results of spectra of WGM with GO coated microsphere drifting with gas volume fraction at low volume fraction. (a) Center wavelength of WGM sensor resonance peak measured at different volume fraction of NH₃; (b) drift curve of center wavelength and standard deviation for each volume fraction

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Fig. 6. Temperature response of WGM with GO coated microsphere

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$Real-time response curve for NH3 with volume fraction of 10×10-6-40×10-6$

Fig. 7. Real-time response curve for NH₃ with volume fraction of 10×10^-6-40×10^-6