Research at 2DPHYS
Information about some of our research groups in 2DPHYS
| - 2D Electronic Materials - We explore the unique properties of low-dimensional materials and how these can be engineered towards novel types of devices and technology. (Professor Peter Bøggild) |
| - Applied 2D Materials - Correlation of structure with properties at the finest scales. New atomic scale patterning strategies and fabrication techniques enabled by 2D materials. (Associate Professor Tim Booth) |
| - Functional Materials - Electromechanical interactions, in particular how residual strains created by defects such as vacancies, dislocations, inclusions and grain boundaries. (Associate Professor Hugh Simons) |
| - Theoretical Nanoelectronics - Focused on theory and computer simulation of transport properties of Nano-scale devices “under working conditions” – i.e. out of equilibrium. (Professor Mads Brandbyge) |
| - In 2D Innovate - We focus on addressing commercial challenges in climate tech applications using large-scale 2D materials (Researcher Abhay Shivayogimath) |
| - Theory of light-matter interaction in quantum materials - Strong interaction of a material with light can be exploited to alter the material properties altogether, in and out-of-equilibrium. (Associate Professor Simone Latini) |
| - Applied Nano-optics - We focus on controlling and manipulating light using novel optical nanomaterials, such as metals, semiconductors, and two-dimensional materials. (Associate Professor Søren Raza) |
| - Theoretical Nanotechnology - The Theoretical Nanotechnology group works on quantum phenomena in nanostructures based on modern two-dimensional systems. (Emeritus Antti-Pekka Jauho) |