Due to the emergence of various new infectious (viral/bacteria) diseases, the remote surveillance of infected persons has become most important, especially if hospitals need to isolate infected patients to prevent the spreading of pathogens to health care personnel. Therefore, we develop a remote health monitoring system by integrating a stretchable asymmetric supercapacitor (SASC) as a portable power source with sensors that can monitor the human physical health condition in real-time and remotely. An abnormal body temperature and breathing rate could indicate a person’s sickness/infection status. Here we integrated FePS₃@graphene-based strain sensor and SASC into an all-in-one textile system and wrapped it around the abdomen to continuously monitor the breathing cycle of the person. The real body temperature was recorded by integrating the temperature sensor with the SASC. The proposed system recorded physiological parameters in real-time and when monitored remotely could be employed as a screening tool for monitoring pathogen infection status.

由于各种新的传染性（病毒/细菌）疾病的出现，对感染者的远程监测变得尤为重要，尤其是在医院需要隔离感染者以防止病原体传播给医护人员的情况下。因此，我们通过将可拉伸的非对称超级电容器（SASC）作为便携式电源与可以实时和远程监测人体健康状况的传感器集成在一起，开发了一种远程健康监测系统。体温和呼吸频率异常可能表明一个人的疾病/感染状态。这里我们集成了 FePS ₃基于@graphene 的应变传感器和 SASC 集成到一个一体化的纺织系统中，并将其包裹在腹部，以持续监测人的呼吸周期。通过将温度传感器与SASC集成来记录真实体温。所提出的系统实时记录生理参数，当远程监测时，可以用作监测病原体感染状态的筛查工具。