Researchers from AMO GmbH and the Chair for Electronic Devices at RWTH Aachen University have experimentally demonstrated a scalable technique for realizing field-effect transistors based on two-dimensional molybdenum disulfide (MoS2), with low contact resistance (about 9 kΩ·µm) and high on/off current ratios of 108. The approach is based on lateral heterostructures of MoS2 and […]
AMO GmbH is proud to be one of the partners of MultiLab, an EU project that aims at developing a lab-on-chip platform designed to meet the growing demand for small, versatile sensors able to provide chemical and biochemical information. Analysis methods like chromatography and microscopy are essential working horses of medical diagnostics and environmental monitoring. […]
One of the great assets of two-dimensional (2D) materials is the possibility of pacing different materials on top of each other to form heterostructures with properties tailored to specific application scenarios. However, the quality of the final material stack strongly depends on the electronic coupling between the different materials. Measuring this coupling in a non-destructive […]
