I-Lab, And Key Laboratory of Multifunctional Nanomaterials and Smart Systems, Suzhou Institute of Nano-Tech and Nano-Bionics (SINANO), Chinese Academy of Sciences (CAS), 398 Ruoshui Road, Suzhou, Jiangsu, 215123, PR China.
Xi'an Jiaotong Liverpool University, Department of Environmental Science, 111 Renai Road, Suzhou, Jiangsu, 215123, PR China.
Talanta. 2020 Jul 1;214:120869. doi: 10.1016/j.talanta.2020.120869. Epub 2020 Feb 28.
Development of stretchable potentiometric ion sensors has the observable potential for wearable devices to continuously monitoring of electrolytes in body fluids. However, the mechanical mismatch between soft elastomeric substrate and ion-selective electrode components greatly hinders sensor's fabrication and its stretching stability for long-term use. Here, we propose a new strategy to construct a potentiometric ion sensor on a surface strain redistributed elastic fiber (SSRE-fiber) with both high stretchability and high sensing stability. The SSRE-fiber is designed with a unique unilateral bead structure, which significantly changes its surface strain distribution during deformation. Benefit from this platform, the active sensing materials with high Young's modulus fabricated on the unilateral bead region can keep unchanged during stretching (0-200%). Thus, the as-prepared potentiometric sensors (ion-selective electrode and polymer/inorganic salt membrane-coated reference electrode) can perform with stable functions ignoring the stretching of the fiber. This new SSRE-fiber platform paves a way for the design of highly stretchable and stable electrochemical sensor capable of integrating into textiles for wearable biochemical detection applications.
可拉伸电位离子传感器的发展具有可观的潜力,可用于可穿戴设备对体液中电解质进行连续监测。然而,柔软弹性基底与离子选择性电极组件之间的机械失配极大地阻碍了传感器的制造及其长期使用的拉伸稳定性。在这里,我们提出了一种在具有高拉伸性和高传感稳定性的表面应变再分布弹性纤维(SSRE-纤维)上构建电位离子传感器的新策略。SSRE-纤维采用独特的单侧珠状结构设计,在变形过程中显著改变其表面应变分布。得益于该平台,在单侧珠状区域制造的具有高杨氏模量的活性传感材料在拉伸(0-200%)过程中保持不变。因此,所制备的电位传感器(离子选择性电极和聚合物/无机盐膜涂层参比电极)可以忽略纤维的拉伸而保持稳定的功能。这种新的 SSRE-纤维平台为设计高度可拉伸和稳定的电化学传感器铺平了道路,这些传感器能够集成到纺织品中,用于可穿戴生化检测应用。
