Double-Layered Conductive Network Design of Flexible Strain Sensors for High Sensitivity and Wide Working Range.
Wei WangYuying MaTianyi WangKai DingWei ZhaoLong JiaoDengkun ShuChenyang LiFeiguo HuaHong JiangShuhua TongShuo YangYonghao NiBowen ChengPublished in: ACS applied materials & interfaces (2022)
For flexible strain sensors, the optimization between sensitivity and working range is a significant challenge due to the fact that high sensitivity and high working range are usually difficult to obtain at the same time. Herein, a breathable flexible strain sensor with a double-layered conductive network structure was designed and developed, which consists of a thermoplastic polyurethane (TPU)/carbon nanotube (CNT) layer (as a substrate layer) and a Ag nanowire (AgNW) layer. The TPU/CNT layer is made of electrospinning TPU with CNTs deposited onto the surface of TPU fibers, and the flexible TPU/CNT mat guarantees the integrity of the conductive path under a large strain. The AgNW layer was prepared by depositing different amounts of AgNWs on the surface of the TPU/CNT layer, and the high-conductivity AgNWs offer a low initial resistance. Benefitting from the synergistic two-layer structure, the as-obtained flexible strain sensor exhibits a very high sensitivity (up to 1477.7) and a very wide working range (up to 150%). Besides, the fabricated sensor exhibits fast response (88 ms), excellent dynamical stability (7000 cycles), and excellent breathability. The working mechanism of the strain sensor was further investigated using various techniques (microscopy, equivalent circuit, and thermal effects of current). Furthermore, the as-fabricated flexible strain sensors accurately detect the omnidirectional human motions, including subtle and large human motions. This work provides an efficient approach to achieve the optimization between high sensitivity and large working range of strain sensors, which may have great potential applications in health monitoring, body motion detection, and human-machine interactions.
Keyphrases
- endothelial cells
- healthcare
- reduced graphene oxide
- induced pluripotent stem cells
- carbon nanotubes
- low cost
- risk assessment
- mass spectrometry
- drug delivery
- optical coherence tomography
- solid state
- cancer therapy
- atomic force microscopy
- molecular dynamics
- single cell
- label free
- density functional theory
- loop mediated isothermal amplification