Microfluidics in nanoparticle drug delivery; From synthesis to pre-clinical screening J Ahn, J Ko, S Lee, J Yu, YT Kim, NL Jeon Advanced drug delivery reviews 128, 29-53, 2018 | 201 | 2018 |
Piezo1 incorporates mechanical force signals into the genetic program that governs lymphatic valve development and maintenance D Choi, E Park, E Jung, B Cha, S Lee, J Yu, PM Kim, S Lee, YJ Hong, ... JCI insight 4 (5), 2019 | 123 | 2019 |
Metabolic engineering of Corynebacterium glutamicum for enhanced production of 5-aminovaleric acid JH Shin, SH Park, YH Oh, JW Choi, MH Lee, JS Cho, KJ Jeong, JC Joo, ... Microbial Cell Factories 15, 1-13, 2016 | 106 | 2016 |
Microfluidics within a well: an injection-molded plastic array 3D culture platform Y Lee, JW Choi, J Yu, D Park, J Ha, K Son, S Lee, M Chung, HY Kim, ... Lab on a Chip 18 (16), 2433-2440, 2018 | 92 | 2018 |
Engineering tumor vasculature on an injection-molded plastic array 3D culture (IMPACT) platform S Lee, J Lim, J Yu, J Ahn, Y Lee, NL Jeon Lab on a Chip 19 (12), 2071-2080, 2019 | 53 | 2019 |
3D microfluidic platform and tumor vascular mapping for evaluating anti-angiogenic RNAi-based nanomedicine S Lee, S Kim, DJ Koo, J Yu, H Cho, H Lee, JM Song, SY Kim, DH Min, ... ACS nano 15 (1), 338-350, 2020 | 51 | 2020 |
Perfusable micro-vascularized 3D tissue array for high-throughput vascular phenotypic screening J Yu, S Lee, J Song, SR Lee, S Kim, H Choi, H Kang, Y Hwang, YK Hong, ... Nano Convergence 9 (1), 16, 2022 | 39 | 2022 |
Design rules for a tunable merged-tip microneedle J Lim, D Tahk, J Yu, DH Min, NL Jeon Microsystems & nanoengineering 4 (1), 29, 2018 | 34 | 2018 |
High-Throughput 3D In Vitro Tumor Vasculature Model for Real-Time Monitoring of Immune Cell Infiltration and Cytotoxicity J Song, H Choi, SK Koh, D Park, J Yu, H Kang, Y Kim, D Cho, NL Jeon Frontiers in Immunology 12, 733317, 2021 | 29 | 2021 |
Piezo1-regulated mechanotransduction controls flow-activated lymphatic expansion D Choi, E Park, RP Yu, MN Cooper, IT Cho, J Choi, J Yu, L Zhao, JEI Yum, ... Circulation research 131 (2), e2-e21, 2022 | 27 | 2022 |
Modeling 3D human tumor lymphatic vessel network using high‐throughput platform S Lee, H Kang, D Park, J Yu, SK Koh, D Cho, DH Kim, KS Kang, NL Jeon Advanced Biology 5 (2), 2000195, 2021 | 20 | 2021 |
Pneumatically actuated microfluidic platform for reconstituting 3d vascular tissue compression J Ahn, H Lee, H Kang, H Choi, K Son, J Yu, J Lee, J Lim, D Park, M Cho, ... Applied Sciences 10 (6), 2027, 2020 | 14 | 2020 |
A microphysiological system-based potency bioassay for the functional quality assessment of mesenchymal stromal cells targeting vasculogenesis J Lam, B Lee, J Yu, BJ Kwee, Y Kim, J Kim, Y Choi, JS Yoon, Y Kim, ... Biomaterials 290, 121826, 2022 | 10 | 2022 |
Self-detachable UV-curable polymers for open-access microfluidic platforms D Tahk, S Bang, S Hyung, J Lim, J Yu, J Kim, NL Jeon, HN Kim Lab on a Chip 20 (22), 4215-4224, 2020 | 9 | 2020 |
From microchannels to microphysiological systems: Development of application specific devices J Yu, J Lim, MS Choi, M Chung, NL Jeon Microelectronic Engineering 202, 9-18, 2018 | 7 | 2018 |
Characterizing on‐chip angiogenesis induction in a microphysiological system as a functional measure of mesenchymal stromal cell bioactivity J Lam, J Yu, B Lee, C Campagna, S Yoo, K Baek, NL Jeon, KE Sung Advanced Biology, 2300094, 2023 | 4 | 2023 |
Angiogenesis-on-a-chip coupled with single-cell RNA sequencing reveals spatially differential activations of autophagy along angiogenic sprouts S Lee, H Kim, BS Kim, S Chae, S Jung, JS Lee, J Yu, K Son, M Chung, ... Nature communications 15 (1), 230, 2024 | 3 | 2024 |
Piezo1 regulates meningeal lymphatic vessel drainage and alleviates excessive CSF accumulation D Choi, E Park, J Choi, R Lu, JS Yu, C Kim, L Zhao, J Yu, B Nakashima, ... Nature Neuroscience 27 (5), 913-926, 2024 | 1 | 2024 |
Microfluidic device having partially enclosed microfluidic channel and use thereof NL Jeon, B Lee, J Yu, J Ko US Patent 11,691,148, 2023 | | 2023 |
Microfluidic device having partially enclosed microfluidic channel and use thereof NL Jeon, B Lee, J Yu, J Ko US Patent 11,383,239, 2022 | | 2022 |