| Recombinant collagen and gelatin for drug delivery D Olsen, C Yang, M Bodo, R Chang, S Leigh, J Baez, D Carmichael, ... Advanced drug delivery reviews 55 (12), 1547-1567, 2003 | 706 | 2003 |
| Effects of dispensing pressure and nozzle diameter on cell survival from solid freeform fabrication–based direct cell writing R Chang, JAE Nam, WEI Sun Tissue Engineering Part A 14 (1), 41-48, 2008 | 673 | 2008 |
| Biofabrication of a three-dimensional liver micro-organ as an in vitro drug metabolism model R Chang, K Emami, H Wu, W Sun Biofabrication 2 (4), 045004, 2010 | 308 | 2010 |
| Penetrating esophageal injuries: multicenter study of the American Association for the Surgery of Trauma JA Asensio, S Chahwan, W Forno, R MacKersie, M Wall, J Lake, G Minard, ... Journal of Trauma and Acute Care Surgery 50 (2), 289-296, 2001 | 299 | 2001 |
| Direct Cell Writing of 3D Microorgan for In Vitro Pharmacokinetic Model R Chang, J Nam, W Sun Tissue Engineering Part C: Methods 14 (2), 157-166, 2008 | 241 | 2008 |
| Precision extruding deposition (PED) fabrication of polycaprolactone (PCL) scaffolds for bone tissue engineering L Shor, S Güçeri, R Chang, J Gordon, Q Kang, L Hartsock, Y An, W Sun Biofabrication 1 (1), 015003, 2009 | 238 | 2009 |
| Bioprinting cell-laden matrigel for radioprotection study of liver by pro-drug conversion in a dual-tissue microfluidic chip JE Snyder, Q Hamid, C Wang, R Chang, K Emami, H Wu, W Sun Biofabrication 3 (3), 034112, 2011 | 229 | 2011 |
| 3D bioprinting and nanotechnology in tissue engineering and regenerative medicine LG Zhang, K Leong, JP Fisher academic press, 2022 | 138 | 2022 |
| Bioprinted Nanoparticles and Methods of Use AM Clyne, K Buyukhatipoglu, R Chang, W Sun US Patent App. 12/966,645, 2011 | 136 | 2011 |
| Printability study of bioprinted tubular structures using liquid hydrogel precursors in a support bath H Ding, RC Chang Applied Sciences 8 (3), 403, 2018 | 125 | 2018 |
| Research of minimum ignition energy for nano titanium powder and nano iron powder HC Wu, RC Chang, HC Hsiao Journal of Loss Prevention in the Process Industries 22 (1), 21-24, 2009 | 122 | 2009 |
| Machine learning metrology of cell confinement in melt electrowritten three-dimensional biomaterial substrates F Tourlomousis, C Jia, T Karydis, A Mershin, H Wang, DM Kalyon, ... Microsystems & nanoengineering 5 (1), 15, 2019 | 89 | 2019 |
| A fundamental study of charge effects on melt electrowritten polymer fibers H Ding, K Cao, F Zhang, W Boettcher, RC Chang Materials & Design 178, 107857, 2019 | 80 | 2019 |
| Bioprinted nanoparticles for tissue engineering applications K Buyukhatipoglu, R Chang, W Sun, AM Clyne Tissue Engineering Part C: Methods 16 (4), 631-642, 2010 | 74 | 2010 |
| 3D bioprinted GelMA based models for the study of trophoblast cell invasion H Ding, NP Illsley, RC Chang Scientific Reports 9 (1), 18854, 2019 | 67 | 2019 |
| Melt electrospinning writing process guided by a “Printability Number” F Tourlomousis, H Ding, DM Kalyon, RC Chang Journal of Manufacturing Science and Engineering 139 (8), 081004, 2017 | 66 | 2017 |
| Micro-organ device SR Gonda, RC Chang, B Starly, C Culbertson, HL Holtorf, W Sun, J Leslie US Patent 8,343,740, 2013 | 58 | 2013 |
| Recombinant gelatins RC Chang, KI Kivirikko, TB Neff, DR Olsen, JW Polarek US Patent 7,393,928, 2008 | 50 | 2008 |
| Bioprinting three-dimensional structure onto microscale tissue analog devices for pharmacokinetic study and other uses W Sun, RC Chang, B Starly, J Nam US Patent App. 12/297,305, 2009 | 49 | 2009 |
| Micro-organ device SR Gonda, RC Chang, B Starly, C Culbertson, HL Holtorf, W Sun, J Leslie US Patent 8,580,546, 2013 | 48 | 2013 |