Nanoscale studies of quantum matter at ultra-low temperatures.
Charge transport in quantum materials such as topological insulators and novel 2D materials.
Single molecule fabrication with scanning probe microscopy, combined with virtual reality, molecular simulations, robotics and machine learning.
Spin moments interacting with each other and the environment.
Growth, interaction phenomena and interface structures in reciprocal and real space.
Observing the unobservable: imaging molecular orbitals in reciprocal space.
Intense high-resolution monochromatic electron sources.
Two-dimensional materials and proximity effects in van der Waals heterostructures.
Artificial nanostructures with custom-designed quantum states for atomic-scale quantum information, sensing, and simulation.