Graphene oxide functionalized long period fiber grating for highly sensitive hemoglobin detection

Graphene oxide functionalized long period fiber grating for highly sensitive hemoglobin detection

•Label-free biosensor based on graphene oxide (GO)-long period grating (LPG).•GO-LPG configuration for strong light-matter interaction.•A new deposition technique for the cylindrical substrate.•Ultrahigh sensitivity with detectable concentration of 0.05 mg/mL, far below hemoglobin threshold value fo...

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Veröffentlicht in:Sensors and actuators. B, Chemical Chemical, 2018-05, Vol.261, p.91-96
Hauptverfasser: Liu, C., Xu, B.J., Zhou, L., Sun, Z., Mao, H.J., Zhao, J.L., Zhang, L., Chen, X.
Format: Artikel
Sprache:eng
Schlagworte:
Adsorption
Anemia
Atomic force microscopy
Biomedical materials
Biosensor
Biosensors
Chemical bonds
Graphene
Graphene oxide
Hemoglobin
Liquefied petroleum gas
Long period grating
Molecular chains
Molecules
Morphology
Nanostructure
Optical sensor
Organic chemistry
Refractivity
Scanning electron microscopy
Sensitivity
Sensitivity analysis
Studies
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container_issue
container_start_page 91
container_title Sensors and actuators. B, Chemical
container_volume 261
creator Liu, C.
Xu, B.J.
Zhou, L.
Sun, Z.
Mao, H.J.
Zhao, J.L.
Zhang, L.
Chen, X.
description •Label-free biosensor based on graphene oxide (GO)-long period grating (LPG).•GO-LPG configuration for strong light-matter interaction.•A new deposition technique for the cylindrical substrate.•Ultrahigh sensitivity with detectable concentration of 0.05 mg/mL, far below hemoglobin threshold value for anemia defined by WHO. We present graphene oxide (GO) nanosheets functionalized long period grating (LPG) for ultrasensitive hemoglobin sensing. The sensing mechanism relies on the measurement of LPG resonant intensity change induced by the adsorption of hemoglobin molecules onto GO, where GO as a bio-interface linkage provides the significant light-matter interaction between evanescent field and target molecules. The deposition technique based on chemical-bonding associated with physical-adsorption was developed to immobilize GO nanosheets on cylindrical fiber device. The surface morphology was characterized by scanning electron microscope, atomic force microscopy, and Raman spectroscopy. With relatively thicker GO coating, the refractive index (RI) sensitivity of GO-LPG was extremely enhanced and achieved −76.5 dB/RIU, −234.2 dB/RIU and +1580.5 dB/RIU for RI region of 1.33–1.38, 1.40–1.44 and 1.45–1.46, respectively. The GO-LPG was subsequently implemented as an optical biosensor to detect human hemoglobin giving a sensitivity of 1.9 dB/(mg/mL) and a detectable concentration of 0.05 mg/mL, which was far below the hemoglobin threshold value for anemia defined by World Health Organization. The proposed GO-LPG architecture can be further developed as an optical biosensing platform for anemia diagnostics and biomedical applications.
doi_str_mv 10.1016/j.snb.2018.01.117
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We present graphene oxide (GO) nanosheets functionalized long period grating (LPG) for ultrasensitive hemoglobin sensing. The sensing mechanism relies on the measurement of LPG resonant intensity change induced by the adsorption of hemoglobin molecules onto GO, where GO as a bio-interface linkage provides the significant light-matter interaction between evanescent field and target molecules. The deposition technique based on chemical-bonding associated with physical-adsorption was developed to immobilize GO nanosheets on cylindrical fiber device. The surface morphology was characterized by scanning electron microscope, atomic force microscopy, and Raman spectroscopy. With relatively thicker GO coating, the refractive index (RI) sensitivity of GO-LPG was extremely enhanced and achieved −76.5 dB/RIU, −234.2 dB/RIU and +1580.5 dB/RIU for RI region of 1.33–1.38, 1.40–1.44 and 1.45–1.46, respectively. The GO-LPG was subsequently implemented as an optical biosensor to detect human hemoglobin giving a sensitivity of 1.9 dB/(mg/mL) and a detectable concentration of 0.05 mg/mL, which was far below the hemoglobin threshold value for anemia defined by World Health Organization. The proposed GO-LPG architecture can be further developed as an optical biosensing platform for anemia diagnostics and biomedical applications.</description><identifier>ISSN: 0925-4005</identifier><identifier>EISSN: 1873-3077</identifier><identifier>DOI: 10.1016/j.snb.2018.01.117</identifier><language>eng</language><publisher>Lausanne: Elsevier B.V</publisher><subject>Adsorption ; Anemia ; Atomic force microscopy ; Biomedical materials ; Biosensor ; Biosensors ; Chemical bonds ; Graphene ; Graphene oxide ; Hemoglobin ; Liquefied petroleum gas ; Long period grating ; Molecular chains ; Molecules ; Morphology ; Nanostructure ; Optical sensor ; Organic chemistry ; Refractivity ; Scanning electron microscopy ; Sensitivity ; Sensitivity analysis ; Studies</subject><ispartof>Sensors and actuators. B, Chemical, 2018-05, Vol.261, p.91-96</ispartof><rights>2018 Elsevier B.V.</rights><rights>Copyright Elsevier Science Ltd. 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B, Chemical</title><description>•Label-free biosensor based on graphene oxide (GO)-long period grating (LPG).•GO-LPG configuration for strong light-matter interaction.•A new deposition technique for the cylindrical substrate.•Ultrahigh sensitivity with detectable concentration of 0.05 mg/mL, far below hemoglobin threshold value for anemia defined by WHO. We present graphene oxide (GO) nanosheets functionalized long period grating (LPG) for ultrasensitive hemoglobin sensing. The sensing mechanism relies on the measurement of LPG resonant intensity change induced by the adsorption of hemoglobin molecules onto GO, where GO as a bio-interface linkage provides the significant light-matter interaction between evanescent field and target molecules. The deposition technique based on chemical-bonding associated with physical-adsorption was developed to immobilize GO nanosheets on cylindrical fiber device. The surface morphology was characterized by scanning electron microscope, atomic force microscopy, and Raman spectroscopy. With relatively thicker GO coating, the refractive index (RI) sensitivity of GO-LPG was extremely enhanced and achieved −76.5 dB/RIU, −234.2 dB/RIU and +1580.5 dB/RIU for RI region of 1.33–1.38, 1.40–1.44 and 1.45–1.46, respectively. The GO-LPG was subsequently implemented as an optical biosensor to detect human hemoglobin giving a sensitivity of 1.9 dB/(mg/mL) and a detectable concentration of 0.05 mg/mL, which was far below the hemoglobin threshold value for anemia defined by World Health Organization. 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The deposition technique based on chemical-bonding associated with physical-adsorption was developed to immobilize GO nanosheets on cylindrical fiber device. The surface morphology was characterized by scanning electron microscope, atomic force microscopy, and Raman spectroscopy. With relatively thicker GO coating, the refractive index (RI) sensitivity of GO-LPG was extremely enhanced and achieved −76.5 dB/RIU, −234.2 dB/RIU and +1580.5 dB/RIU for RI region of 1.33–1.38, 1.40–1.44 and 1.45–1.46, respectively. The GO-LPG was subsequently implemented as an optical biosensor to detect human hemoglobin giving a sensitivity of 1.9 dB/(mg/mL) and a detectable concentration of 0.05 mg/mL, which was far below the hemoglobin threshold value for anemia defined by World Health Organization. The proposed GO-LPG architecture can be further developed as an optical biosensing platform for anemia diagnostics and biomedical applications.</abstract><cop>Lausanne</cop><pub>Elsevier B.V</pub><doi>10.1016/j.snb.2018.01.117</doi><tpages>6</tpages><oa>free_for_read</oa></addata></record>
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subjects Adsorption
Anemia
Atomic force microscopy
Biomedical materials
Biosensor
Biosensors
Chemical bonds
Graphene
Graphene oxide
Hemoglobin
Liquefied petroleum gas
Long period grating
Molecular chains
Molecules
Morphology
Nanostructure
Optical sensor
Organic chemistry
Refractivity
Scanning electron microscopy
Sensitivity
Sensitivity analysis
Studies
title Graphene oxide functionalized long period fiber grating for highly sensitive hemoglobin detection
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