A flexible transparent graphene/metal–organic framework complex hybrid chemical sensor for highly sensitive ethanol detection
Yong Hee Kim, Chang Ho Choi, Hyun Woo Song, Eun Kwang Lee, Dong‐Pyo Kim, Joon Hak Oh
Abstract
Abstract High‐performance flexible and transparent chemical sensors are key to achieving wearable electronics. Graphene with high transmittance and electrical properties is a suitable material for flexible and transparent chemical sensors. However, graphene has low detectivity to chemical substances. Here, we report hybrid chemical sensors fabricated by introducing a highly flat and smooth metal–organic framework (MOF) on graphene. The graphene chemical sensors functionalized with MOF on SiO 2 /Si wafer exhibit 22 times higher sensitivity of 6.07 μA ppm −1 in detecting ethanol than that of pristine graphene transistors of 0.28 μA ppm −1 and a low detection limit of 1 ppm. Furthermore, a flexible transparent 7 × 7 chemical sensor array exhibits great driving stability after the bending cycles of 10 5 at a bending radius of 1.0 mm and shows sensitivity of 0.11 μA ppm −1 . Our findings demonstrate an efficient way to improve the chemical sensing ability of graphene for application in wearable chemical sensors. image