Jeon, O., Shin, J., Marks, R., Hopkins, M., Kim, T., Park, H., & Alsberg, E.(2017).Highly Elastic and Tough Interpenetrating Polymer Network-Structured Hybrid Hydrogels for Cyclic Mechanical Loading-Enhanced Tissue Engineering.CHEMISTRY OF MATERIALS,29(19),8425-8432.
Jeon, O., Shin, J., Marks, R., Hopkins, M., Kim, T., Park, H., & Alsberg, E.(2017).Highly Elastic and Tough Interpenetrating Polymer Network-Structured Hybrid Hydrogels for Cyclic Mechanical Loading-Enhanced Tissue Engineering.CHEMISTRY OF MATERIALS,29(19),8425-8432.
Jeon, O., Marks, R., Wolfson, D., & Alsberg, E.(2016).Dual-crosslinked hydrogel microwell system for formation and culture of multicellular human adipose tissue-derived stem cell spheroids.Journal of Materials Chemistry B [2050750X],4(20),3526-3533.
Jeon, O., Marks, R., Wolfson, D., & Alsberg, E.(2016).Dual-crosslinked hydrogel microwell system for formation and culture of multicellular human adipose tissue-derived stem cell spheroids.JOURNAL OF MATERIALS CHEMISTRY B,4(20),3526-3533.
Jeon, O., Marks, R., Wolfson, D., & Alsberg, E.(2016).Dual-crosslinked hydrogel microwell system for formation and culture of multicellular human adipose tissue-derived stem cell spheroids.JOURNAL OF MATERIALS CHEMISTRY B,4(20),3526-3533.
