TY - JOUR AU - 이승백 DA - 2019/03 PY - 2019 UR - https://www.mdpi.com/1424-8220/19/6/1300 UR - https://repository.hanyang.ac.kr/handle/20.500.11754/109935 AB - In this article, we report on a highly sensitive tactile shear sensor that was able to detect minute levels of shear and surface slip. The sensor consists of a suspended elastomer diaphragm with a top ridge structure, a graphene layer underneath, and a bottom substrate with multiple spatially digitized contact electrodes. When shear is applied to the top ridge structure, it creates torque and deflects the elastomer downwards. Then, the graphene electrode makes contact with the bottom spatially digitized electrodes completing a circuit producing output currents depending on the number of electrodes making contact. The tactile shear sensor was able to detect shear forces as small as 6 N, detect shear direction, and also distinguish surface friction and roughness differences of shearing objects. We also succeeded in detecting the contact slip motion of a single thread demonstrating possible applications in future robotic fingers and remote surgical tools. PB - MDPI KW - shear sensor KW - high sensitivity KW - friction detection KW - surface roughness detection TI - Highly Sensitive Tactile Shear Sensor Using Spatially Digitized Contact Electrodes VL - 19 DO - 10.3390/s19061300 T2 - SENSORS ER -