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      Review—Recent Material Advances and Their Mechanistic Approaches for Room Temperature Chemiresistive Gas Sensors

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      Journal of The Electrochemical Society
      The Electrochemical Society

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          Abstract

          Gas sensors have become an integral part of the industrial and domestic sector, due to the increased emissions from industries, automobiles, and thereby exposure of the harmful gases like CO, NO 2, SO 2, CO 2, NH 3 etc. Metal oxide-semiconducting (MOS) chemiresistive gas sensors are the most popular commercial gas sensors available in the market. However, they need high operational temperature for activation and deactivation, which is a serious concern for sensitive combustible environments, as well as in other applications where flexibility, low power consumption, and miniaturization are desirable. Hence, gas sensors those exhibit high sensitivity and selectivity to the target gases, at room temperature are the need-of-hour in the market. This review focuses on various strategies and approaches those being employed and the challenges ahead to realize such room temperature chemiresistive gas sensing; viz: (i) 1 D-nanostructuring of various conventional metals and metal oxides; (ii) Nano +heterojunctions between metal oxide-metal oxides and noble metals; (iii) 2 D-materials; (iv) Self-heating in nanowires; (v) Perovskites; (vi) Conducting polymers; (vii) defect engineering to produce free charge carriers, and (viii) alternative activation by light illumination . The mechanism behind the strategies implemented to achieve such room temperature gas sensing has been explicitly discussed. The review also introduces various types of gas sensors, their working principle, pros and cons, mechanism and parameters of chemiresistive gas sensors, and their typical construction. This article also discusses the electrode configurations used in the chemiresistive gas sensors.

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          Recent Advances in Quartz Crystal Microbalance-Based Sensors

          Quartz crystal microbalance (QCM) has gained exceptional importance in the fields of (bio)sensors, material science, environmental monitoring, and electrochemistry based on the phenomenal development in QCM-based sensing during the last two decades. This review provides an overview of recent advances made in QCM-based sensors, which have been widely employed in a plethora of applications for the detection of chemicals, biomolecules and microorganisms.
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            Gas sensors using ordered macroporous oxide nanostructures

            Detection and monitoring of harmful and toxic gases have gained increased interest in relation to worldwide environmental issues. Semiconducting metal oxide gas sensors have been considered promising for the facile remote detection of gases and vapors over the past decades. However, their sensing performance is still a challenge to meet the demands for practical applications where excellent sensitivity, selectivity, stability, and response/recovery rate are imperative. Therefore, sensing materials with novel architectures and fabrication processes have been pursued with a flurry of research activity. In particular, the preparation of ordered macroporous metal oxide nanostructures is regarded as an intriguing candidate wherein ordered aperture sizes in the range from 50 nm to 1.5 μm can increase the chemical diffusion rate and considerably strengthen the performance stability and repeatability. This review highlights the recent advances in the fabrication of ordered macroporous nanostructures with different dimensions and compositions, discusses the sensing behavior evolution governed by structural layouts, hierarchy, doping, and heterojunctions, as well as considering their general principles and future prospects. This would provide a clear scale for others to tune the sensing performance of porous materials in terms of specific components and structural designs.
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              Author and article information

              Contributors
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              Journal
              Journal of The Electrochemical Society
              J. Electrochem. Soc.
              The Electrochemical Society
              0013-4651
              1945-7111
              May 20 2021
              May 01 2021
              May 20 2021
              May 01 2021
              : 168
              : 5
              : 057521
              Article
              10.1149/1945-7111/abf4ea
              7a79a1c4-d4b9-4033-a7e3-a4742792c646
              © 2021

              https://iopscience.iop.org/page/copyright

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