Candidates will have strengths in research areas that include stem cell biology and bioengineering, developmental biology, cellular engineering (such as genomics, proteomics, metabolomics and transcriptomics), compositional analysis and modification/engineering of the extracellular matrix, cell signaling and regulation as pertaining to intra- and extracellular-tissue interactions, wound healing, cellular regeneration and repair, immune system interactions, neuromodulation, and inflammation. Candidates will have a terminal doctoral degree in biomedical engineering, chemical engineering, biological sciences or chemistry, or a related field, and have developed an internationally recognized interdisciplinary research program, attracted external grant funding to support this research, and will contribute to graduate and undergraduate teaching, and engage in department, institute, and professional service activities.