• Vining, K.H.; Adu-Berchie, K., Grolman, J.M.; Wong, W.J.; Pozdnyakova, O.; Severgnini, M.; Marneth, A.; Stafford, A.; Duda, G.N.; Ebert, B.; Mullaly, A.E.; Wucherpfennig, K.; Mooney, D.J. “Mechanical resistance of extracellular matrix directs monocyte cell fate. Nature Materials, 2020 (in revision).

  • Grolman, J.M.; Weinand, P.; Mooney, D.J. “Extracellular matrix plasticity as a driver of cell spreading” PNAS, 2020.

  • Nuutila, K., Grolman, J., Yang, L., Broomhead, M., Lipsitz, S., Onderdonk, A., Mooney, D., & Eriksson, E. Immediate Treatment of Burn Wounds with High Concentrations of Topical Antibiotics in an Alginate Hydrogel Using a Platform Wound Device. Advances in wound care, 9(2), 48–60. 2020.

  • Winterberg, S.; Shachar, C.; Lunshof, J.; Grolman, J.M. “Technology Fact Sheet: Genome Editing.” Belfer Center for Science and International Affairs. 2019.

  • Nuutila, K.; Grolman, J.M.; Yang, L.; Broomhead, M.; Lipsitz, S.; Onderdonk, A.; Mooney, D.J.;Eriksson, E. “Immediate Treatment of Burn Wounds with High Concentrations of Topical Antibiotics in an Alginate Hydrogel Using a Platform Wound Device. Wound Care, 2019.

  • Grolman, J.M.; Mansher S.; Mooney, D.J.; Eriksson, E.; Nuutila, K. “Antibiotic-containing agarose hydrogel for wound and burn care,” Burn Care and Research, 2019.

  • Goli, E.; Robertson, I.; Agarwal, H.; Pruitt, E.; Grolman, J.M.; Geubelle, P.; Moore, J.S. “Frontal Polymerization Accelerated by Continuous Conductive Elements,” Appl. Polym. Sci., 2019, 13, 47418-47427.

  • van der Valk, D.C.*; van der Ven, C.F.T.*; Blaser, M.C.*; Grolman, J.M.; Wu, P.J.; Fenton, O.S.; Lee, L.H.; Tibbitt, M.W.; Andresen, J.L.; Wen, J.R.; Ha, A.H.; Buffolo, F.; van Mil, A.; Bouten, C.V.C.; Body, S.C.; Mooney, D.J.; Sluijter, J.P.G.; Aikawa, M.; Hjortnaes, J.; Langer, R.; Aikawa, E. “Engineering a 3D-Bioprinted Model of Human Heart Valve Disease Using Nanoindentation-Based Biomechanics,” Nanomaterials, 2018, 8, 296-317.

  • Koshy, S.T.; Zhang, D.K.; Grolman, J.M.; Stafford, A.G.; Mooney D.J. “Injectable nanocomposite cryogels for versatile protein drug delivery,” Acta Biomaterialia, 2018, 65, 36-43.

  • Wang, H.S.; Grolman, J.M.; Rizvi, A.; Zimmerman, S. “pH-Triggered Release from Polyamide Microcapsules Prepared by Interfacial Polymerization of a Simple Diester Monomer,” ACS Macro. Lett., 2017, 6, 321-325.

  • Montoto, E.; Gavvalapalli, N.; Hui, J.; Burgess, M.; Sekerak, N.; Hernandez-Burgos, K.; Wei, T.-S.; Kneer, M.; Grolman, J.; Cheng, K.; Lewis, J.; Moore, J.; Rodriguez-Lopez, J. “Redox Active Colloids as Discrete Energy Storage Carriers,” Am. Chem. Soc. 2016, 138, 13230–13237.

  • Grolman, J.M. “Methods of Extruding Multilayer Fibers,” Patent Application WO2016172707A1.

  • Grolman, J.M.; Zhang, D.; Smith, A.M.; Moore, J.S.; Kilian, K.A. “Rapid 3D Extrusion of Synthetic Tumor Microenvironments,” Mater., 2015, 27, 5512-5517 (selected front cover art).

  • Grolman, J.M.; Inci, B.; Moore, J.S. “pH-Dependent Switchable Permeability from Core-Shell Microcapsules,” ACS Macro. Lett., 2015, 4, 441-445.

  • Madkour, A. E.; Grolman, J.M.; Tew, G. N. “Synthesis of Hydrogels via Ring-Opening Metathesis Polymerization: Factors Affecting Gelation,” Chem., 2011, 2, 114-119.

  • Rathfon, J.M.; Grolman, J.M.; Crosby, A.J.; Tew, G.N. “Formation of Oriented, Suspended Fibers by Melting Free Standing Polystyrene Thin Films,” Macromolecules, 2009, 42, 6716-6722.