Highly Stretchable, Sensitive Strain Sensors with Wide Linear Sensing Region Based on Compressed Anisotropic Graphene Foam/Polymer Nanocomposites
Nanocomposite strain sensors composed of compressed honeycomb-like reduced-graphene-oxide (RGO) foam embedded in polydimethylsiloxane are facilely fabricated via unidirectional freeze-drying and simple mechanical compression. The microstructural characteristics of the nanocomposites endow the sensor...
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sg-ntu-dr.10356-887842023-07-14T15:52:21Z Highly Stretchable, Sensitive Strain Sensors with Wide Linear Sensing Region Based on Compressed Anisotropic Graphene Foam/Polymer Nanocomposites Zeng, Zhihui Seyed Shahabadi, Seyed Ismail Che, Boyang Zhang, Youfang Zhao, Chenyang Lu, Xuehong School of Materials Science & Engineering Graphene Sensor Nanocomposite strain sensors composed of compressed honeycomb-like reduced-graphene-oxide (RGO) foam embedded in polydimethylsiloxane are facilely fabricated via unidirectional freeze-drying and simple mechanical compression. The microstructural characteristics of the nanocomposites endow the sensors with excellent flexibility, high stretchability and sensing sensitivity, as well as anisotropic mechanical and sensing performance when stretched along directions vertical and parallel to the aligned RGO cell walls (defined as transverse and longitudinal directions, respectively). In particular, the compression of the aligned RGO foam into a thinner film results in more conductive pathways, greatly increasing the sensing sensitivity of the nanocomposite sensors. The sensors stretched along the transverse direction show an outstanding combination of high stretchability over 120%, wide linear sensing region of 0–110% and high strain sensing sensitivity with a gauge factor of around 7.2, while even higher strain sensitivity and lower sensing strain are exhibited along the longitudinal direction. Sensitive and reliable detection of human motions is also successfully demonstrated using these light-weight thin-film nanocomposite sensors. ASTAR (Agency for Sci., Tech. and Research, S’pore) Accepted version 2018-04-26T03:25:29Z 2019-12-06T17:10:51Z 2018-04-26T03:25:29Z 2019-12-06T17:10:51Z 2017 2017 Journal Article Zeng, Z., Seyed Shahabadi, S. I., Che, B., Zhang, Y., Zhao, C., & Lu, X. (2017). Highly Stretchable, Sensitive Strain Sensors with Wide Linear Sensing Region Based on Compressed Anisotropic Graphene Foam/Polymer Nanocomposites. Nanoscale, 9(44), 17396–17404. 2040-3364 https://hdl.handle.net/10356/88784 http://hdl.handle.net/10220/44721 10.1039/c7nr05106a 206340 en Nanoscale © 2017 The Author(s) (Royal Society of Chemistry). This is the author created version of a work that has been peer reviewed and accepted for publication by Nanoscale, The Author(s)(Royal Society of Chemistry). It incorporates referee’s comments but changes resulting from the publishing process, such as copyediting, structural formatting, may not be reflected in this document. The published version is available at: [http://dx.doi.org/10.1039/c7nr05106a]. 56 p. application/pdf |
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Graphene Sensor Zeng, Zhihui Seyed Shahabadi, Seyed Ismail Che, Boyang Zhang, Youfang Zhao, Chenyang Lu, Xuehong Highly Stretchable, Sensitive Strain Sensors with Wide Linear Sensing Region Based on Compressed Anisotropic Graphene Foam/Polymer Nanocomposites |
| description |
Nanocomposite strain sensors composed of compressed honeycomb-like reduced-graphene-oxide (RGO) foam embedded in polydimethylsiloxane are facilely fabricated via unidirectional freeze-drying and simple mechanical compression. The microstructural characteristics of the nanocomposites endow the sensors with excellent flexibility, high stretchability and sensing sensitivity, as well as anisotropic mechanical and sensing performance when stretched along directions vertical and parallel to the aligned RGO cell walls (defined as transverse and longitudinal directions, respectively). In particular, the compression of the aligned RGO foam into a thinner film results in more conductive pathways, greatly increasing the sensing sensitivity of the nanocomposite sensors. The sensors stretched along the transverse direction show an outstanding combination of high stretchability over 120%, wide linear sensing region of 0–110% and high strain sensing sensitivity with a gauge factor of around 7.2, while even higher strain sensitivity and lower sensing strain are exhibited along the longitudinal direction. Sensitive and reliable detection of human motions is also successfully demonstrated using these light-weight thin-film nanocomposite sensors. |
| author2 |
School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Zeng, Zhihui Seyed Shahabadi, Seyed Ismail Che, Boyang Zhang, Youfang Zhao, Chenyang Lu, Xuehong |
| format |
Article |
| author |
Zeng, Zhihui Seyed Shahabadi, Seyed Ismail Che, Boyang Zhang, Youfang Zhao, Chenyang Lu, Xuehong |
| author_sort |
Zeng, Zhihui |
| title |
Highly Stretchable, Sensitive Strain Sensors with Wide Linear Sensing Region Based on Compressed Anisotropic Graphene Foam/Polymer Nanocomposites |
| title_short |
Highly Stretchable, Sensitive Strain Sensors with Wide Linear Sensing Region Based on Compressed Anisotropic Graphene Foam/Polymer Nanocomposites |
| title_full |
Highly Stretchable, Sensitive Strain Sensors with Wide Linear Sensing Region Based on Compressed Anisotropic Graphene Foam/Polymer Nanocomposites |
| title_fullStr |
Highly Stretchable, Sensitive Strain Sensors with Wide Linear Sensing Region Based on Compressed Anisotropic Graphene Foam/Polymer Nanocomposites |
| title_full_unstemmed |
Highly Stretchable, Sensitive Strain Sensors with Wide Linear Sensing Region Based on Compressed Anisotropic Graphene Foam/Polymer Nanocomposites |
| title_sort |
highly stretchable, sensitive strain sensors with wide linear sensing region based on compressed anisotropic graphene foam/polymer nanocomposites |
| publishDate |
2018 |
| url |
https://hdl.handle.net/10356/88784 http://hdl.handle.net/10220/44721 |
| _version_ |
1772825219705077760 |