Department of Chemical and Biomolecular Engineering (BK-21 Plus) , Korea Advanced Institute of Science and Technology (KAIST) , Daejeon 34141 , Republic of Korea.
KAIST Institute for NanoCentury , Daejeon 34141 , Republic of Korea.
ACS Nano. 2019 Aug 27;13(8):9332-9341. doi: 10.1021/acsnano.9b03971. Epub 2019 Aug 2.
Weavable sensing fibers with superior mechanical strength and sensing functionality are crucial for the realization of wearable textile sensors. However, in the fabrication of previously reported wearable sensing fibers, additional processes such as reduction, doping, and coating were essential to satisfy both requirements. The sensing fibers should be continuously synthesized in a scalable process for commercial applications with high reliability and productivity, which was challenging. In this study, we first synthesize mass-producible wearable sensing fibers with good mechanical properties and sensing functionality without additional processes by incorporating carbon nanotubes (CNTs) into distinct nanocellulose. Nanocellulose extracted from tunicate (TCNF) is homogeneously composited with single-walled CNTs, and composite fibers (TCNF/CNT) are continuously produced in aligned directions by wet spinning, facilitating liquid-crystal properties. The TCNF/CNT fibers exhibit a superior gas (NO)-sensing performance with high selectivity and sensitivity (parts-per-billion detection). In addition, the TCNF/CNT fibers can endure complex and harsh distortions maintaining their intrinsic sensing properties and can be perfectly integrated with conventional fabrics using a direct weaving process. Our meter-scale scalable synthesis of functional composite fibers is expected to provide a mass production platform of versatile wearable sensors.
具有优异机械强度和传感功能的可编织传感纤维对于实现可穿戴纺织传感器至关重要。然而,在以前报道的可穿戴传感纤维的制造中,为了满足这两个要求,还原、掺杂和涂层等额外的工艺是必不可少的。为了实现商业应用的高可靠性和高产量,传感纤维应该在可扩展的工艺中连续合成,这是具有挑战性的。在这项研究中,我们首次通过将碳纳米管(CNT)纳入不同的纳米纤维素,合成了具有良好机械性能和传感功能的可量产的可穿戴传感纤维,而无需额外的工艺。从被囊动物中提取的纳米纤维素(TCNF)与单壁 CNT 均匀复合,通过湿法纺丝连续生产出具有各向异性排列的复合纤维(TCNF/CNT),从而表现出液晶特性。TCNF/CNT 纤维具有优异的气体(NO)传感性能,具有高选择性和灵敏度(可检测到十亿分之一的浓度)。此外,TCNF/CNT 纤维可以承受复杂和苛刻的变形,同时保持其固有传感性能,并且可以使用直接编织工艺与传统织物完美集成。我们的米级功能复合纤维的可扩展合成有望为多功能可穿戴传感器提供大规模生产平台。
