Description
The rapid evolution of electronics has spurred the exploration of two-dimensional (2D) materials to transcend the limitations of conventional rigid platforms. In this talk, I will present recent advancements in molybdenum disulfide (MoS₂)-based devices, unlocking diverse applications ranging from traditional electronics to bio-integrated systems.
In parallel, MoS₂ thin-film transistor (TFT) arrays have been optimized for backplane circuits, which are critical for driving flexible OLED and microLED displays as well as X-ray detectors. These arrays demonstrate exceptional uniformity and operational stability, supporting high-resolution visual outputs.
Additionally, MoS₂ transistor arrays have been engineered for electrocorticogram (ECoG) signal detection, opening new frontiers in neural interfacing and brain–machine integration. By harnessing the complementary properties of graphene and MoS₂, this research lays the foundation for a new era of bio-integrated electronics—enhancing human-device interaction, expanding biomedical capabilities, and transforming wearable sensor technologies.
