Nanofiber/nanowires-based flexible and stretchable sensors

Dongyi Wang; Lili Wang; Guozhen Shen

doi:10.1088/1674-4926/41/4/041605

Nanofiber/nanowires-based flexible and stretchable sensors

Dongyi Wang, Lili Wang^*, Guozhen Shen

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

76 Citations (Scopus)

Abstract

Nanofibers/nanowires with one-dimension (1D) nanostructure or well-patterned microstructure have shown distinctly advantages in flexible and stretchable sensor fields, owing to their remarkable tolerance against mechanical bending or stretching, outstanding electronic/optoelectronic properties, good transparency, and excellent geometry. Herein, latest summaries in the unique structure and properties of nanofiber/nanowire function materials and their applications for flexible and stretchable sensor are highlighted. Several types of high-performance nanofiber/nanowire-based flexible pressure and stretchable sensors are also reviewed. Finally, a conclusion and prospect for 1D nanofiber/nanowires-based flexible and stretchable sensors are also intensively discussed. This summary offers new insights for the development of flexible and stretchable sensor based 1D nanostructure in next-generation flexible electronics.

Original language	English
Article number	041605
Journal	Journal of Semiconductors
Volume	41
Issue number	4
DOIs	https://doi.org/10.1088/1674-4926/41/4/041605
Publication status	Published - Apr 2020
Externally published	Yes

Keywords

flexible and stretchable sensor
flexible electronic
nanofibers/nanowires
one-dimension nanostructure

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10.1088/1674-4926/41/4/041605

Cite this

Wang, D., Wang, L., & Shen, G. (2020). Nanofiber/nanowires-based flexible and stretchable sensors. Journal of Semiconductors, 41(4), Article 041605. https://doi.org/10.1088/1674-4926/41/4/041605

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abstract = "Nanofibers/nanowires with one-dimension (1D) nanostructure or well-patterned microstructure have shown distinctly advantages in flexible and stretchable sensor fields, owing to their remarkable tolerance against mechanical bending or stretching, outstanding electronic/optoelectronic properties, good transparency, and excellent geometry. Herein, latest summaries in the unique structure and properties of nanofiber/nanowire function materials and their applications for flexible and stretchable sensor are highlighted. Several types of high-performance nanofiber/nanowire-based flexible pressure and stretchable sensors are also reviewed. Finally, a conclusion and prospect for 1D nanofiber/nanowires-based flexible and stretchable sensors are also intensively discussed. This summary offers new insights for the development of flexible and stretchable sensor based 1D nanostructure in next-generation flexible electronics.",

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author = "Dongyi Wang and Lili Wang and Guozhen Shen",

note = "Publisher Copyright: {\textcopyright} 2020 Chinese Institute of Electronics.",

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AB - Nanofibers/nanowires with one-dimension (1D) nanostructure or well-patterned microstructure have shown distinctly advantages in flexible and stretchable sensor fields, owing to their remarkable tolerance against mechanical bending or stretching, outstanding electronic/optoelectronic properties, good transparency, and excellent geometry. Herein, latest summaries in the unique structure and properties of nanofiber/nanowire function materials and their applications for flexible and stretchable sensor are highlighted. Several types of high-performance nanofiber/nanowire-based flexible pressure and stretchable sensors are also reviewed. Finally, a conclusion and prospect for 1D nanofiber/nanowires-based flexible and stretchable sensors are also intensively discussed. This summary offers new insights for the development of flexible and stretchable sensor based 1D nanostructure in next-generation flexible electronics.

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Nanofiber/nanowires-based flexible and stretchable sensors

Abstract

Keywords

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