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      Electrically Transduced Gas Sensors Based on Semiconducting Metal Oxide Nanowires

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          Abstract

          Semiconducting metal oxide-based nanowires (SMO-NWs) for gas sensors have been extensively studied for their extraordinary surface-to-volume ratio, high chemical and thermal stabilities, high sensitivity, and unique electronic, photonic and mechanical properties. In addition to improving the sensor response, vast developments have recently focused on the fundamental sensing mechanism, low power consumption, as well as novel applications. Herein, this review provides a state-of-art overview of electrically transduced gas sensors based on SMO-NWs. We first discuss the advanced synthesis and assembly techniques for high-quality SMO-NWs, the detailed sensor architectures, as well as the important gas-sensing performance. Relationships between the NWs structure and gas sensing performance are established by understanding general sensitization models related to size and shape, crystal defect, doped and loaded additive, and contact parameters. Moreover, major strategies for low-power gas sensors are proposed, including integrating NWs into microhotplates, self-heating operation, and designing room-temperature gas sensors. Emerging application areas of SMO-NWs-based gas sensors in disease diagnosis, environmental engineering, safety and security, flexible and wearable technology have also been studied. In the end, some insights into new challenges and future prospects for commercialization are highlighted.

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          Wearable and flexible electronics for continuous molecular monitoring

          Yiran Yang, Wei Gao (2019)
          Wearable/flexible chemical sensors enable continuous molecular monitoring and provide an individual's dynamic health information at the molecular level. Wearable biosensors have received tremendous attention over the past decade owing to their great potential in predictive analytics and treatment toward personalized medicine. Flexible electronics could serve as an ideal platform for personalized wearable devices because of their unique properties such as light weight, low cost, high flexibility and great conformability. Unlike most reported flexible sensors that mainly track physical activities and vital signs, the new generation of wearable and flexible chemical sensors enables real-time, continuous and fast detection of accessible biomarkers from the human body, and allows for the collection of large-scale information about the individual's dynamic health status at the molecular level. In this article, we review and highlight recent advances in wearable and flexible sensors toward continuous and non-invasive molecular analysis in sweat, tears, saliva, interstitial fluid, blood, wound exudate as well as exhaled breath. The flexible platforms, sensing mechanisms, and device and system configurations employed for continuous monitoring are summarized. We also discuss the key challenges and opportunities of the wearable and flexible chemical sensors that lie ahead.
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            Highly sensitive and selective gas sensors using p-type oxide semiconductors: Overview

            Hyo-Joong Kim, Jong-Heun Lee (2014)
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              A laser ablation method for the synthesis of crystalline semiconductor nanowires

              Morales, Lieber (1998)
              A method combining laser ablation cluster formation and vapor-liquid-solid (VLS) growth was developed for the synthesis of semiconductor nanowires. In this process, laser ablation was used to prepare nanometer-diameter catalyst clusters that define the size of wires produced by VLS growth. This approach was used to prepare bulk quantities of uniform single-crystal silicon and germanium nanowires with diameters of 6 to 20 and 3 to 9 nanometers, respectively, and lengths ranging from 1 to 30 micrometers. Studies carried out with different conditions and catalyst materials confirmed the central details of the growth mechanism and suggest that well-established phase diagrams can be used to predict rationally catalyst materials and growth conditions for the preparation of nanowires.
              Article 0 comments Cited 390 times – based on 0 reviews     Review now
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                Author and article information

                Journal
                Journal ID (nlm-ta): Sensors (Basel)
                Journal ID (iso-abbrev): Sensors (Basel)
                Journal ID (publisher-id): sensors
                Title: Sensors (Basel, Switzerland)
                Publisher: MDPI
                ISSN (Electronic): 1424-8220
                Publication date (Electronic): 27 November 2020
                Publication date Collection: December 2020
                Volume: 20
                Issue: 23
                Electronic Location Identifier: 6781
                Affiliations
                [1 ]Key Laboratory of Luminescence & Optical Information, Ministry of Education, School of Science, Beijing Jiaotong University, Beijing 100044, China; yingw@ 123456bjtu.edu.cn
                [2 ]Beijing Key Laboratory of Security and Privacy in Intelligent Transportation, Beijing Jiaotong University, Beijing 100044, China; duanli@ 123456bjtu.edu.cn
                [3 ]Key Laboratory for Renewable Energy, Beijing Key Laboratory for New Energy Materials and Devices, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China
                [4 ]Key Laboratory for the Physics and Chemistry of Nanodevices, Department of Electronics, Peking University, Beijing 100871, China; Jianhui.Liao@ 123456pku.edu.cn
                Author notes
                [* ]Correspondence: zhen.deng@ 123456iphy.ac.cn ; Tel.: +86-010-8264-9296
                Author information
                https://orcid.org/0000-0003-1660-2578
                Article
                Publisher ID: sensors-20-06781
                DOI: 10.3390/s20236781
                PMC ID: 7729516
                PubMed ID: 33260973
                SO-VID: 7f7f9872-b4ca-4419-870c-0e538b0b68de
                Copyright © © 2020 by the authors.
                License:

                Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license ( http://creativecommons.org/licenses/by/4.0/).

                History
                Date received : 27 October 2020
                Date accepted : 23 November 2020
                Categories
                Subject: Review

                ScienceOpen disciplines: Biomedical engineering
                Keywords: semiconducting metal oxide,nanowires,gas sensor,sensing mechanism,doped/loaded additive,crystal defect,low-power consumption
                Data availability:
                ScienceOpen disciplines: Biomedical engineering
                Keywords: semiconducting metal oxide, nanowires, gas sensor, sensing mechanism, doped/loaded additive, crystal defect, low-power consumption

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