Lossy Mode Resonance Based Fiber Optic Creatinine Sensor Fabricated Using Molecular Imprinting Over Nanocomposite of MoS2/SnO2
Creatinine (CR) produced through the muscle metabolism acts as biomarker to monitor the kidney functioning of the human body. In this study, a successful effort has been made to develop a fast and easy detection method for the monitoring of CR concentration in an aqueous solution as well as in the a...
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| Published in: | IEEE sensors journal Vol. 20; no. 8; pp. 4251 - 4259 |
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| Main Authors: | , , |
| Format: | Journal Article |
| Language: | English |
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New York
IEEE
15-04-2020
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
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| Abstract | Creatinine (CR) produced through the muscle metabolism acts as biomarker to monitor the kidney functioning of the human body. In this study, a successful effort has been made to develop a fast and easy detection method for the monitoring of CR concentration in an aqueous solution as well as in the artificial urine sample. The sensor has been developed over a lossy mode resonance (LMR) based optical fiber platform using MoS 2 @SnO 2 nanocomposite as LMR supporting material and MoS 2 @SnO 2 nanocomposite along with CR imprinted polymer film as artificial antibodies. The sensor's performance has been studied for the CR concentration range from 0 to 2000 μg/mL which lies within the physiological range found in human blood and urine. The maximum sensitivity and detection limit of the sensor have been found to be 0.41 nm/(μg/mL) and 1.86 μg/mL, respectively. The sensor has several advantages such as high selectivity, long-term stability, repeatability and fast response. The recovery of the sensor probes close to 100% with the artificial urine sample shows its potential use in the biomedical application. |
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| AbstractList | Creatinine (CR) produced through the muscle metabolism acts as biomarker to monitor the kidney functioning of the human body. In this study, a successful effort has been made to develop a fast and easy detection method for the monitoring of CR concentration in an aqueous solution as well as in the artificial urine sample. The sensor has been developed over a lossy mode resonance (LMR) based optical fiber platform using MoS 2 @SnO 2 nanocomposite as LMR supporting material and MoS 2 @SnO 2 nanocomposite along with CR imprinted polymer film as artificial antibodies. The sensor's performance has been studied for the CR concentration range from 0 to 2000 μg/mL which lies within the physiological range found in human blood and urine. The maximum sensitivity and detection limit of the sensor have been found to be 0.41 nm/(μg/mL) and 1.86 μg/mL, respectively. The sensor has several advantages such as high selectivity, long-term stability, repeatability and fast response. The recovery of the sensor probes close to 100% with the artificial urine sample shows its potential use in the biomedical application. Creatinine (CR) produced through the muscle metabolism acts as biomarker to monitor the kidney functioning of the human body. In this study, a successful effort has been made to develop a fast and easy detection method for the monitoring of CR concentration in an aqueous solution as well as in the artificial urine sample. The sensor has been developed over a lossy mode resonance (LMR) based optical fiber platform using MoS2@SnO2 nanocomposite as LMR supporting material and MoS2@SnO2 nanocomposite along with CR imprinted polymer film as artificial antibodies. The sensor’s performance has been studied for the CR concentration range from 0 to [Formula Omitted]/mL which lies within the physiological range found in human blood and urine. The maximum sensitivity and detection limit of the sensor have been found to be 0.41 nm/([Formula Omitted]/mL) and [Formula Omitted]/mL, respectively. The sensor has several advantages such as high selectivity, long-term stability, repeatability and fast response. The recovery of the sensor probes close to 100% with the artificial urine sample shows its potential use in the biomedical application. |
| Author | Gupta, Banshi D. Sharma, Sonika Shrivastav, Anand M. |
| Author_xml | – sequence: 1 givenname: Sonika surname: Sharma fullname: Sharma, Sonika email: sharma.s8529@gmail.com organization: Department of Physics, Indian Institute of Technology Delhi, New Delhi, India – sequence: 2 givenname: Anand M. surname: Shrivastav fullname: Shrivastav, Anand M. email: anand.mhn734@gmail.com organization: Department of Electrical Engineering, The Hong Kong Polytechnic University, Hong Kong – sequence: 3 givenname: Banshi D. orcidid: 0000-0001-6505-7743 surname: Gupta fullname: Gupta, Banshi D. email: bdgupta@physics.iitd.ac.in organization: Department of Physics, Indian Institute of Technology Delhi, New Delhi, India |
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| Snippet | Creatinine (CR) produced through the muscle metabolism acts as biomarker to monitor the kidney functioning of the human body. In this study, a successful... |
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| SubjectTerms | Antibodies Aqueous solutions Biomarkers Biomedical materials Creatinine Fiber optics Imprinted polymers lossy mode resonance Molecular imprinting Molybdenum disulfide molybdenum sulphide Muscles Nanocomposites Optical device fabrication optical fiber sensor Optical fiber sensors Optical fibers Optical losses Polymer films Polymers Probes Resonance Selectivity Sensors Tin dioxide tin oxide Urine |
| Title | Lossy Mode Resonance Based Fiber Optic Creatinine Sensor Fabricated Using Molecular Imprinting Over Nanocomposite of MoS2/SnO2 |
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