Focusing primarily on exploring exotic nonequilibrium phases of matter (e.g., time crystals, non-Hermitian topological phases) and universal rules underlying nonequilibrium dynamics (e.g., uncertainty relation, Lieb-Robinson bound), we carry out comprehensive research at the interface of various subjects including statistical mechanics, condensed matter physics, quantum information, quantum optics, mathematical physics, etc. On top of figuring out the fundamental theory, we also try to address the experimental relevance and potential practical applications. Moreover, we are widely interested in other related topics such as thermodynamics and complexity, and always motivated to try to merge different research fields and open new research avenues.  See the poster and publications for further detail.