Sweat permeable and ultrahigh strength 3D PVDF piezoelectric nanoyarn fabric strain sensor
Xi'an Polytechnic University · Textile Research Institute · +6 more institutions
Abstract
Commercial wearable piezoelectric sensors possess excellent anti-interference stability due to their electronic packaging. However, this packaging renders them barely breathable and compromises human comfort. To address this issue, we develop a PVDF piezoelectric nanoyarns with an ultrahigh strength of 313.3 MPa, weaving them with different yarns to form three-dimensional piezoelectric fabric (3DPF) sensor using the advanced 3D textile technology. The tensile strength (46.0 MPa) of 3DPF exhibits the highest among the reported flexible piezoelectric sensors. The 3DPF features anti-gravity unidirectional liquid transport that allows sweat to move from the inner layer near to the skin to the outer layer in 4 s,…
Citation impact
- FWCI
- 34.10
- Percentile
- 100%
- References
- 75
Authors
12Topics & keywords
- Piezoelectricity
- Materials science
- Textile
- Composite material
- Weaving
- Ultimate tensile strength
- Layer (electronics)
- Wearable computer