Advanced wearable biosensors for the detection of body fluids and exhaled breath by grapheneopen access
- Authors
- Singh, Santoshi U.; Chatterjee, Subhodeep; Lone, Shahbaz Ahmad; Ho, Hsin-Hsuan; Kaswan, Kuldeep; Peringeth, Kiran; Khan, Arshad; Chiang, Yun-Wei; Lee, Sangmin; Lin, Zong-Hong
- Issue Date
- Jun-2022
- Publisher
- SPRINGER WIEN
- Keywords
- Wearable biosensors; Body fluids; Exhaled breath; Non-invasive detection; Graphene; Biomarkers
- Citation
- MICROCHIMICA ACTA, v.189, no.6
- Journal Title
- MICROCHIMICA ACTA
- Volume
- 189
- Number
- 6
- URI
- https://scholarworks.bwise.kr/cau/handle/2019.sw.cau/58317
- DOI
- 10.1007/s00604-022-05317-2
- ISSN
- 0026-3672
1436-5073
- Abstract
- Given the huge economic burden caused by chronic and acute diseases on human beings, it is an urgent requirement of a cost-effective diagnosis and monitoring process to treat and cure the disease in their preliminary stage to avoid severe complications. Wearable biosensors have been developed by using numerous materials for non-invasive, wireless, and consistent human health monitoring. Graphene, a 2D nanomaterial, has received considerable attention for the development of wearable biosensors due to its outstanding physical, chemical, and structural properties. Moreover, the extremely flexible, foldable, and biocompatible nature of graphene provide a wide scope for developing wearable biosensor devices. Therefore, graphene and its derivatives could be trending materials to fabricate wearable biosensor devices for remote human health management in the near future. Various biofluids and exhaled breath contain many relevant biomarkers which can be exploited by wearable biosensors non-invasively to identify diseases. In this article, we have discussed various methodologies and strategies for synthesizing and pattering graphene. Furthermore, general sensing mechanism of biosensors, and graphene-based biosensing devices for tear, sweat, interstitial fluid (ISF), saliva, and exhaled breath have also been explored and discussed thoroughly. Finally, current challenges and future prospective of graphene-based wearable biosensors have been evaluated with conclusion.
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Collections - College of Engineering > School of Mechanical Engineering > 1. Journal Articles
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