Indian Journal of Engineering & Materials Sciences

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Nano-Structured Gas Sensing Materials for Ammonia Detection with Special Emphasis on Medical Applications


Affiliations
1 Department of Electronics and Communication Engineering, Tezpur University, Tezpur 784 028, India
2 Department of Electronics and Communication Engineering, Assam Don Bosco University, Guwahati 781 017, India

Ammonia, a highly toxic gas, known for its wide industrial usage, is now gaining importance as a biomarker for quite a few terminal diseases. Therefore, the quest for a sensitive and selective ammonia gas sensor is booming. A brief study on the importance and various sources of ammonia gas has been recapitulated in this review along with the elaboration of ammonia as a biomarker for clinical applications embracing renal and hepatic diseases. In addition, developments in nanotechnology-based ammonia sensors have been summarized in-depth, emphasizing metal oxide semiconductor (MOS) based, polymer-based, and carbon nanomaterial-based gas sensors. This review has brought into the limelight the importance of sensing very low concentrations of ammonia. The performance of a wide range of MOS, polymer, and carbon nanomaterial-based sensors has been summarized in minute detail which will help researchers in attaining a quick analysis of state of art sensors to meet the needs of their intended application areas.

Keywords

Ammonia, Gas sensor, MOS, Polymer, Graphene, Renal, Hepatic, Biomarker
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  • Nano-Structured Gas Sensing Materials for Ammonia Detection with Special Emphasis on Medical Applications

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Authors

Sithikraja R
Department of Electronics and Communication Engineering, Tezpur University, Tezpur 784 028, India
Karen Das
Department of Electronics and Communication Engineering, Assam Don Bosco University, Guwahati 781 017, India
Priyanka Kakoty
Department of Electronics and Communication Engineering, Tezpur University, Tezpur 784 028, India

Abstract


Ammonia, a highly toxic gas, known for its wide industrial usage, is now gaining importance as a biomarker for quite a few terminal diseases. Therefore, the quest for a sensitive and selective ammonia gas sensor is booming. A brief study on the importance and various sources of ammonia gas has been recapitulated in this review along with the elaboration of ammonia as a biomarker for clinical applications embracing renal and hepatic diseases. In addition, developments in nanotechnology-based ammonia sensors have been summarized in-depth, emphasizing metal oxide semiconductor (MOS) based, polymer-based, and carbon nanomaterial-based gas sensors. This review has brought into the limelight the importance of sensing very low concentrations of ammonia. The performance of a wide range of MOS, polymer, and carbon nanomaterial-based sensors has been summarized in minute detail which will help researchers in attaining a quick analysis of state of art sensors to meet the needs of their intended application areas.

Keywords


Ammonia, Gas sensor, MOS, Polymer, Graphene, Renal, Hepatic, Biomarker