2016
Top-down synthesis of polyaspartamide morphogens to derive platinum nanoclusters.
Cho, SW, Kim, H.J., Cho, Y.N,, Jeong, J. H. & Kong, H. J.
Materials Letters. 9 (2): 168:184-187 (2016).
Worm-like superparamagnetic nanoparticle clusters for enhanced adhesion and magnetic resonance relaxivity.
Smith, C., Lee, J, Seo, Y., Clay, N., Park, J., Shkumatov, A., Ernenwein, D., Lai, M-H., Misra, S., Sing, C., Andrade, B., Zimmerman, S., & Kong, H. J.
ACS Applied Materials & Interfaces. 9 (2): 1219-1225 (2016).
Three Dimensional Conjugation of Recombinant N-Cadherin to a Hydrogel for In Vitro Anisotropic Neural Growth.
Vega, J.C.M, Lee, M.K., Qin, E.C., Rich, M., Lee, K.Y., Kim, D.H., Chung, H.J., Leckband, D.E.*, Kong, H.J.*
Journal of Materials Chemistry 4, 6803-6811 (2016). (* Co-corresponding authors).
Modulation of Matrix Softness and Interstitial Flow for 3D Cell Culture Using a Cell-Microenvironment-on-a-Chip (C-MOC) System.
Clay, N., Shin, K., Ozcelikkale,., Lee, M.K., Rich, M., Han, B.S. *, Kong, H.J. *
ACS Biomaterials Science and Engineering. 2(11): 1968-1975 (2016). (* Co-corresponding authors).
3D printed stem cell-laden, microchanneled hydrogel patch for the enhanced release of cell-secreting factors and treatment of myocardial infarctions.
Melhem, M., Park, J., Knapp, L., Reinkensmeyer, L., Cvetkovic, C., Flewellyn, J., Lee, M.K., Jensen, T., Bashir, R.*, Kong, H.J.*, Schook, L*.
ACS Biomaterials Science and Engineering (In press, 2016). (* Co-corresponding authors).
3D Printing Enables Separation of Orthogonal Functions Within a Hydrogel Particle.
Raman, R.%, Clay, N.%, Sen, S., Melhem, M., Qin, E., Kong, H*. & Bashir, R*.
Biomedical Devices 18:49 (2016). (% equal contribution, * Co-corresponding authors).
Rupture force of cell adhesion ligand tethers modulates biological activities of a cell-laden hydrogel.
%Lee, M.,%Park, J., Wang, X., Roein-Peikar M., Ko, E., Qin, E., Lee, J., Ha, TJ*., Kong, H.J*
Chemical Communication 52: 4757-4760 (2016). (% equal contribution, * Co-corresponding authors).
Alginate Sulfates Mitigates Binding Kinetics of Proangiogenic Growth Factors with Receptors towards Revascularization.
Schmidt, J; Lee, M.K.; Ko, E.; Jeong, J.H.; DiPietro, L.; Kong, H.
Molecular Pharmacuetics 13(7): 2148-2154 (2016).
Projection micro-stereolithography for high-resolution patterning of microvasculature.
Raman, R., Bhaduri, B., Lee, M.K., Shkumatov, A., Mir, M., Popescu, G., Kong, H.J., & Bashir, R.
Advanced Healthcare Materials 5: 622 (2016)