Litcius/Paper detail

A Machine‐Learning‐Enhanced Simultaneous and Multimodal Sensor Based on Moist‐Electric Powered Graphene Oxide

Ce Yang, Haiyan Wang, Jiawei Yang, Houze Yao, Tiancheng He, Jiaxin Bai, Tianlei Guang, Huhu Cheng, Jianfeng Yan, Liangti Qu

2022Advanced Materials105 citationsDOI

Abstract

Simultaneous multimodal monitoring can greatly perceive intricately multiple stimuli, which is important for the understanding and development of a future human-machine fusion world. However, the integrated multisensor networks with cumbersome structure, huge power consumption, and complex preparation process have heavily restricted practical applications. Herein, a graphene oxide single-component multimodal sensor (GO-MS) is developed, which enables simultaneous monitoring of multiple environmental stimuli by a single unit with unique moist-electric self-power supply. This GO-MS can generate a sustainable moist-electric potential by spontaneously adsorbing water molecules in air, which has a characteristic response behavior when exposed to different stimuli. As a result, the simultaneous monitoring and decoupling of the changes of temperature, humidity, pressure, and light intensity are achieved by this single GO-MS with machine-learning (ML) assistance. Of practical importance, a moist-electric-powered human-machine interaction wristband based on GO-MS is constructed to monitor pulse signals, body temperature, and sweating in a multidimensional manner, as well as gestures and sign language commanding communication. This ML-empowered moist-electric GO-MS provides a new platform for the development of self-powered single-component multimodal sensors, showing great potential for applications in the fields of health detection, artificial electronic skin, and the Internet-of-Things.

Topics & Concepts

GrapheneMaterials scienceComputer scienceGestureOxideNanotechnologyArtificial intelligenceMetallurgyAdvanced Sensor and Energy Harvesting MaterialsGas Sensing Nanomaterials and SensorsConducting polymers and applications