2017
DOI: 10.1002/adfm.201702891
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Recent Advances in Sensing Applications of Graphene Assemblies and Their Composites

Abstract: Development of next-generation sensor devices is gaining tremendous attention in both academia and industry because of their broad applications in manufacturing processes, food and environment control, medicine, disease diagnostics, security and defense, aerospace, and so forth. Current challenges include the development of low-cost, ultrahigh, and user-friendly sensors, which have high selectivity, fast response and recovery times, and small dimensions. The critical demands of these new sensors are typically … Show more

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Cited by 242 publications
(152 citation statements)
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References 482 publications
(652 reference statements)
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“…Moreover, GNPs are very favorable filler in MMNCs in comparison with the single layer of graphene due to their merits like higher stability, lower cost of production, easy handling and more versatility in size and aspect ratio of GNPs. It should be noted that even at the rather low graphene nanoplatelets content, a 3D network is formed and consequently anisotropic characteristics can be formed as a result of the high aspect ratio of graphene nanoplatelets within the matrix [73][74][75][76][77]-this improves the thermal and electrical conductivities as well as the mechanical features.…”
Section: Reinforcementmentioning
confidence: 99%
“…Moreover, GNPs are very favorable filler in MMNCs in comparison with the single layer of graphene due to their merits like higher stability, lower cost of production, easy handling and more versatility in size and aspect ratio of GNPs. It should be noted that even at the rather low graphene nanoplatelets content, a 3D network is formed and consequently anisotropic characteristics can be formed as a result of the high aspect ratio of graphene nanoplatelets within the matrix [73][74][75][76][77]-this improves the thermal and electrical conductivities as well as the mechanical features.…”
Section: Reinforcementmentioning
confidence: 99%
“…To date, plenty of pressure sensors have been explored, including capacitive, [2,3] piezoelectrical, [4][5][6] and piezoresistive [7,8] pressure sensors. To tackle this problem, one possible way is the combination of flexible insulating matrices with carbonaceous nanomaterials as conductive fillers, such as graphene, [11] reduced graphene oxide (rGO), [12] and carbon nanotubes (CNTs). Piezoresistive pressure sensors can transduce changes of mechanical strain into changes of electrical resistance, and are broadly used due to their simple work mechanism and sensitivity to pressure.…”
mentioning
confidence: 99%
“…With the rapid development of the society, the gas sensor becomes more and more important in various fields, including the detection of toxic and explosive gases for public safety and industry monitoring, as well as the gas we exhale out for disease diagnosis, etc . Among the various types of gas sensors, resistive gas sensors are the most widely used because of their low cost, simple processing, and easy operation.…”
Section: Aerogel‐based Sensorsmentioning
confidence: 99%
“…A sensor is a transducer that transforms information from stimuli including gas, light, heat, pressure, activity, temperature, force, etc., into suitable form amenable for further processing (e.g., electrical signals) . Among the components of sensors, sensing materials where the interaction between stimuli and materials mainly takes place, play a critical role to obtain sensors of high performance, such as high sensitivity, good selectivity, and fast response and recovery.…”
Section: Introductionmentioning
confidence: 99%
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