Litcius/Paper detail

Environment-Resilient Graphene Vibrotactile Sensitive Sensors for Machine Intelligence

Haicheng Yao, Pengju Li, Wen Cheng, Weidong Yang, Zijie Yang, Hashina Parveen Anwar Ali, Hongchen Guo, Benjamin C. K. Tee

2020ACS Materials Letters46 citationsDOI

Abstract

Skin-like sensors that transduce tactile pressures and vibrations with minimal environment variation on performance are crucial in robotic sensing and prosthetic skins. However, sensor performance variations under varying environmental conditions, such as temperature and humidity, are common in piezoresistive sensors because of their intrinsic materials properties. Moreover, the viscoelasticity of soft elastomers causes strain response in a time-dependent fashion, which poses sensor limitations in high-frequency tactile tasks, such as texture recognition. In this work, we demonstrate a new environment-robust tactile sensor via an interfacial engineering process for uniform graphene coating on microstructured elastomers. The sensor enables reliable pressure response over a range of temperature (25–60 °C) and humidity (30–90% relative humidity) conditions, with resistance variations less than 5% and 3%, respectively. It is also able to detect vibrations with frequency up to 1500 Hz. Moreover, our sensor shows ultra-high durability, with high sensitivity and low hysteresis preserved after 1 million cycles. We demonstrate applications with the sensor in epidermal signal monitoring at different arteries, as well as accurate (>95%) surface texture recognition in combination with machine learning.

Topics & Concepts

Piezoresistive effectTactile sensorMaterials scienceGrapheneDurabilitySensitivity (control systems)Relative humidityVibrationAcousticsSIGNAL (programming language)ViscoelasticityElastomerTexture (cosmology)HysteresisPressure sensorComputer scienceComposite materialNanotechnologyArtificial intelligenceRobotElectronic engineeringMechanical engineeringEngineeringImage (mathematics)Programming languageQuantum mechanicsPhysicsThermodynamicsAdvanced Sensor and Energy Harvesting MaterialsTactile and Sensory InteractionsConducting polymers and applications