|Carbon-nanotube-embedded hydrogel sheets for engineering cardiac constructs and bioactuators|
SR Shin, SM Jung, M Zalabany, K Kim, P Zorlutuna, S Kim, M Nikkhah, ...
ACS nano 7 (3), 2369-2380, 2013
|Carbon-based nanomaterials: multifunctional materials for biomedical engineering|
C Cha, SR Shin, N Annabi, MR Dokmeci, A Khademhosseini
ACS nano 7 (4), 2891-2897, 2013
|Microfluidic bioprinting of heterogeneous 3D tissue constructs using low‐viscosity bioink|
C Colosi, SR Shin, V Manoharan, S Massa, M Costantini, A Barbetta, ...
Advanced materials 28 (4), 677-684, 2016
|Direct 3D bioprinting of perfusable vascular constructs using a blend bioink|
W Jia, PS Gungor-Ozkerim, YS Zhang, K Yue, K Zhu, W Liu, Q Pi, ...
Biomaterials 106, 58-68, 2016
|Bioprinting 3D microfibrous scaffolds for engineering endothelialized myocardium and heart-on-a-chip|
YS Zhang, A Arneri, S Bersini, SR Shin, K Zhu, Z Goli-Malekabadi, ...
Biomaterials 110, 45-59, 2016
|Carbon nanotube reinforced hybrid microgels as scaffold materials for cell encapsulation|
SR Shin, H Bae, JM Cha, JY Mun, YC Chen, H Tekin, H Shin, S Farshchi, ...
ACS nano 6 (1), 362-372, 2012
|Injectable graphene oxide/hydrogel-based angiogenic gene delivery system for vasculogenesis and cardiac repair|
A Paul, A Hasan, HA Kindi, AK Gaharwar, VTS Rao, M Nikkhah, SR Shin, ...
ACS nano 8 (8), 8050-8062, 2014
|Graphene-based materials for tissue engineering|
SR Shin, YC Li, HL Jang, P Khoshakhlagh, M Akbari, A Nasajpour, ...
Advanced drug delivery reviews 105, 255-274, 2016
|3D bioprinting for tissue and organ fabrication|
YS Zhang, K Yue, J Aleman, K Mollazadeh-Moghaddam, SM Bakht, ...
Annals of biomedical engineering 45 (1), 148-163, 2017
|Multisensor-integrated organs-on-chips platform for automated and continual in situ monitoring of organoid behaviors|
YS Zhang, J Aleman, SR Shin, T Kilic, D Kim, SAM Shaegh, S Massa, ...
Proceedings of the National Academy of Sciences 114 (12), E2293-E2302, 2017
|A liver-on-a-chip platform with bioprinted hepatic spheroids|
NS Bhise, V Manoharan, S Massa, A Tamayol, M Ghaderi, M Miscuglio, ...
Biofabrication 8 (1), 014101, 2016
|PGS: Gelatin nanofibrous scaffolds with tunable mechanical and structural properties for engineering cardiac tissues|
M Kharaziha, M Nikkhah, SR Shin, N Annabi, N Masoumi, AK Gaharwar, ...
Biomaterials 34 (27), 6355-6366, 2013
|Cell‐laden microengineered and mechanically tunable hybrid hydrogels of gelatin and graphene oxide|
SR Shin, B Aghaei‐Ghareh‐Bolagh, TT Dang, SN Topkaya, X Gao, ...
Advanced materials 25 (44), 6385-6391, 2013
|Reduced graphene oxide‐gelMA hybrid hydrogels as scaffolds for cardiac tissue engineering|
SR Shin, C Zihlmann, M Akbari, P Assawes, L Cheung, K Zhang, ...
Small 12 (27), 3677-3689, 2016
|Rapid continuous multimaterial extrusion bioprinting|
W Liu, YS Zhang, MA Heinrich, F De Ferrari, HL Jang, SM Bakht, ...
Advanced Materials 29 (3), 1604630, 2017
|Nanocomposite hydrogel with high toughness for bioactuators|
MK Shin, GM Spinks, SR Shin, SI Kim, SJ Kim
Advanced Materials 21 (17), 1712-1715, 2009
|Tough and flexible CNT–polymeric hybrid scaffolds for engineering cardiac constructs|
M Kharaziha, SR Shin, M Nikkhah, SN Topkaya, N Masoumi, N Annabi, ...
Biomaterials 35 (26), 7346-7354, 2014
|4D bioprinting: the next-generation technology for biofabrication enabled by stimuli-responsive materials|
YC Li, YS Zhang, A Akpek, SR Shin, A Khademhosseini
Biofabrication 9 (1), 012001, 2016
|Multi-tissue interactions in an integrated three-tissue organ-on-a-chip platform|
A Skardal, SV Murphy, M Devarasetty, I Mead, HW Kang, YJ Seol, ...
Scientific reports 7 (1), 1-16, 2017
|Controlling mechanical properties of cell‐laden hydrogels by covalent incorporation of graphene oxide|
C Cha, SR Shin, X Gao, N Annabi, MR Dokmeci, X Tang, ...
Small 10 (3), 514-523, 2014