Recent progress in flexible and wearable bio-electronics based on nanomaterials

Recent progress in flexible and wearable bio-electronics based on nanomaterials

Flexible and stretchable biosensors that can monitor and quantify the electrical or chemical signals generated by specific microenvironments have attracted a great deal of attention. Wearable biosensors that can be intimately attached to skin or tissue provide a new opportunity for medical diagnosti...

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Published in:Nano research Vol. 10; no. 5; pp. 1560 - 1583
Main Authors: Yang, Yanbing, Yang, Xiangdong, Tan, Yaning, Yuan, Quan
Format: Journal Article
Language:English
Published: Beijing Tsinghua University Press 01-05-2017
Springer Nature B.V
Subjects:
Atomic/Molecular Structure and Spectra
Biomarkers
Biomedicine
Biosensors
Biotechnology
Chemistry and Materials Science
Condensed Matter Physics
Design engineering
Electronics
Integration
Manufacturing industry
Materials Science
Microenvironments
Monitors
Nanomaterials
Nanotechnology
Organisms
Platforms
Review Article
Skin
Wearable
Wearable technology
flexible biosensor
electronics
integrated devices
graphene
nanostructured materials
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Summary:Flexible and stretchable biosensors that can monitor and quantify the electrical or chemical signals generated by specific microenvironments have attracted a great deal of attention. Wearable biosensors that can be intimately attached to skin or tissue provide a new opportunity for medical diagnostics and therapy. In recent years, there has been enormous progress in device integration and the design of materials and manufacturing processes for flexible and stretchable systems. Here, we describe the most recent developments in nanomaterials employed in flexible and stretchable biosensors. We review successful examples of such biosensors used for the detection of vital physiological and biological markers such as gas released from organisms. Furthermore, we provide a detailed overview of recent achievements regarding integrated platforms that include multifunctional nanomaterials. The issues and challenges related to the effective integration of multifunctional nanomaterials in bio-electronics are also discussed.
Bibliography:11-5974/O4
Flexible and stretchable biosensors that can monitor and quantify the electrical or chemical signals generated by specific microenvironments have attracted a great deal of attention. Wearable biosensors that can be intimately attached to skin or tissue provide a new opportunity for medical diagnostics and therapy. In recent years, there has been enormous progress in device integration and the design of materials and manufacturing processes for flexible and stretchable systems. Here, we describe the most recent developments in nanomaterials employed in flexible and stretchable biosensors. We review successful examples of such biosensors used for the detection of vital physiological and biological markers such as gas released from organisms. Furthermore, we provide a detailed overview of recent achievements regarding integrated platforms that include multifunctional nanomaterials. The issues and challenges related to the effective integration of multifunctional nanomaterials in bio-electronics are also discussed.
flexible biosensor,electronics,nanostructured materials,integrated devices,graphene
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:1998-0124
1998-0000
DOI:10.1007/s12274-017-1476-8