Research

Our research vision is to design data-driven and in situ approaches to correlate the synthesis-structure-coherence relationship in quantum materials and quantum system across different length scales. 

Our group will address two general aspects of nanostructured quantum materials:

1. Quantum materials discovery: we design semi-automated, vapor-phase methods to explore large-scale synthesis of nanostructured QMs, with a special focus on two- and one-dimensional van der Waals materials and their integration. 

2. Quantum material characterization: we develop data-driven scanning transmission electron microscopy (S/TEM) techniques combining in situ and analytical methods to investigate the electronic landscape of quantum order and disorder. 

Our research aims to bridge the gap between fundamental studies and potential applications of nanostructured QMs in quantum information science and engineering (QISE).