Journal Article10.1021/ACS.CHEMREV.8B00311
Electrically-Transduced Chemical Sensors Based on Two-Dimensional Nanomaterials
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TL;DR: Key advances in the application of 2D materials, from both a historical and analytical perspective, are summarized for four different groups of analytes: gases, volatile compounds, ions, and biomolecules.
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Abstract: Electrically–transduced sensors, with their simplicity and compatibility with standard electronic technologies, produce signals that can be efficiently acquired, processed, stored, and analyzed. Two dimensional (2D) nanomaterials, including graphene, phosphorene (BP), transition metal dichalcogenides (TMDCs), and others, have proven to be attractive for the fabrication of high–performance electrically-transduced chemical sensors due to their remarkable electronic and physical properties originating from their 2D structure. This review highlights the advances in electrically-transduced chemical sensing that rely on 2D materials. The structural components of such sensors are described, and the underlying operating principles for different types of architectures are discussed. The structural features, electronic properties, and surface chemistry of 2D nanostructures that dictate their sensing performance are reviewed. Key advances in the application of 2D materials, from both a historical and analytical pers...
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Towards a sweat-based wireless and wearable electrochemical sensor
James Dieffenderfer,Michael D. Wilkins,Charles Hood,Eric Beppler,Michael A. Daniele,Alper Bozkurt +5 more
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TL;DR: The work on the electronic interface portion for use with skin adhered biosensors focused on the sensing of lactate; the conjugate base of lactic acid is presented.
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