Midbrain-like organoids from human pluripotent stem cells contain functional dopaminergic and neuromelanin-producing neurons J Jo, Y Xiao, AX Sun, E Cukuroglu, HD Tran, J Göke, ZY Tan, TY Saw, ... Cell stem cell 19 (2), 248-257, 2016 | 732 | 2016 |
Quartz crystal microbalance with dissipation monitoring of supported lipid bilayers on various substrates NJ Cho, CW Frank, B Kasemo, F Höök Nature protocols 5 (6), 1096-1106, 2010 | 602 | 2010 |
Antibacterial free fatty acids and monoglycerides: biological activities, experimental testing, and therapeutic applications BK Yoon, JA Jackman, ER Valle-González, NJ Cho International journal of molecular sciences 19 (4), 1114, 2018 | 478 | 2018 |
Strategies for enhancing the sensitivity of plasmonic nanosensors L Guo, JA Jackman, HH Yang, P Chen, NJ Cho, DH Kim Nano Today 10 (2), 213-239, 2015 | 435 | 2015 |
Precise tuning of facile one-pot gelatin methacryloyl (GelMA) synthesis H Shirahama, BH Lee, LP Tan, NJ Cho Scientific reports 6 (1), 31036, 2016 | 362 | 2016 |
Gelatin methacryloyl and its hydrogels with an exceptional degree of controllability and batch-to-batch consistency M Zhu, Y Wang, G Ferracci, J Zheng, NJ Cho, BH Lee Scientific reports 9 (1), 6863, 2019 | 318 | 2019 |
Quantifying the local tissue volume and composition in individual brains with magnetic resonance imaging A Mezer, JD Yeatman, N Stikov, KN Kay, NJ Cho, RF Dougherty, ML Perry, ... Nature medicine 19 (12), 1667-1672, 2013 | 317 | 2013 |
Nanoplasmonic sensors for biointerfacial science JA Jackman, AR Ferhan, NJ Cho Chemical Society Reviews 46 (12), 3615-3660, 2017 | 236 | 2017 |
High-performance 3D printing of hydrogels by water-dispersible photoinitiator nanoparticles AA Pawar, G Saada, I Cooperstein, L Larush, JA Jackman, SR Tabaei, ... Science advances 2 (4), e1501381, 2016 | 234 | 2016 |
Bimodal tumor-targeting from microenvironment responsive hyaluronan layer-by-layer (LbL) nanoparticles EC Dreaden, SW Morton, KE Shopsowitz, JH Choi, ZJ Deng, NJ Cho, ... ACS nano 8 (8), 8374-8382, 2014 | 182 | 2014 |
High-performance, flexible electronic skin sensor incorporating natural microcapsule actuators L Wang, JA Jackman, EL Tan, JH Park, MG Potroz, ET Hwang, NJ Cho Nano Energy 36, 38-45, 2017 | 177 | 2017 |
Silk fibroin–keratin based 3D scaffolds as a dermal substitute for skin tissue engineering N Bhardwaj, WT Sow, D Devi, KW Ng, BB Mandal, NJ Cho Integrative Biology 7 (1), 53-63, 2015 | 171 | 2015 |
Validation of size estimation of nanoparticle tracking analysis on polydisperse macromolecule assembly A Kim, WB Ng, W Bernt, NJ Cho Scientific reports 9 (1), 2639, 2019 | 166 | 2019 |
Solvent-assisted lipid bilayer formation on silicon dioxide and gold SR Tabaei, JH Choi, G Haw Zan, VP Zhdanov, NJ Cho Langmuir 30 (34), 10363-10373, 2014 | 166 | 2014 |
Efficient and controllable synthesis of highly substituted gelatin methacrylamide for mechanically stiff hydrogels BH Lee, H Shirahama, NJ Cho, LP Tan RSC advances 5 (128), 106094-106097, 2015 | 145 | 2015 |
Biotechnology applications of tethered lipid bilayer membranes JA Jackman, W Knoll, NJ Cho Materials 5 (12), 2637-2657, 2012 | 139 | 2012 |
Employing two different quartz crystal microbalance models to study changes in viscoelastic behavior upon transformation of lipid vesicles to a bilayer on a gold surface NJ Cho, KK Kanazawa, JS Glenn, CW Frank Analytical chemistry 79 (18), 7027-7035, 2007 | 136 | 2007 |
Employing an amphipathic viral peptide to create a lipid bilayer on Au and TiO2 NJ Cho, SJ Cho, KH Cheong, JS Glenn, CW Frank Journal of the American Chemical Society 129 (33), 10050-10051, 2007 | 126 | 2007 |
Flexible, graphene‐coated biocomposite for highly sensitive, real‐time molecular detection L Wang, JA Jackman, WB Ng, NJ Cho Advanced Functional Materials 26 (47), 8623-8630, 2016 | 124 | 2016 |
Supported lipid bilayer formation: beyond vesicle fusion JA Jackman, NJ Cho Langmuir 36 (6), 1387-1400, 2020 | 121 | 2020 |