We are a multidisciplinary and collaborative research team with the overarching goal to establish structure-function relationships by understanding and advancing the fundamental knowledge rooted in the physics, chemistry and engineering of next generation materials for optoelectronics, sustainable, energy conversion, quantum computing, sensing and environmental preservation. Our philosophy is to develop creative and out-of-the-box approaches to solve fundamental scientific problems and apply this knowledge to demonstrate technologically relevant performance in devices on par or exceeding the current state-of-the-art devices.
To achieve our goals, we have established unique correlated and in-situ capabilities with unprecedented resolution in energy, space and time coupled with external stimuli such as temperature, fields and environments thus allowing for the investigation of properties from the nanoscale to the macroscale, critical for the integration of materials into technologically relevant platforms.
If you are interested in joining us or learning more about our efforts, do not hesitate to contact us.