| Surface enhanced Raman spectroscopy and its application to molecular and cellular analysis YS Huh, AJ Chung, D Erickson Microfluidics and nanofluidics 6 (3), 285-297, 2009 | 268 | 2009 |
| Microfluidics-enabled orientation and microstructure control of macroscopic graphene fibres G Xin, W Zhu, Y Deng, J Cheng, LT Zhang, AJ Chung, S De, J Lian Nature Nanotechnology 14, 168-175, 2019 | 239 | 2019 |
| Three dimensional, sheathless, and high‐throughput microparticle inertial focusing through geometry‐induced secondary flows AJ Chung, DR Gossett, D Di Carlo Small 9 (5), 685-690, 2013 | 206 | 2013 |
| Continuous inertial microparticle and blood cell separation in straight channels with local microstructures Z Wu, Y Chen, M Wang, AJ Chung Lab on a Chip 16 (3), 532-542, 2016 | 141 | 2016 |
| Optofluidic fabrication for 3D-shaped particles KS Paulsen, D Di Carlo, AJ Chung Nature communications 6 (1), 6976, 2015 | 130 | 2015 |
| Advances in high-throughput single-cell microtechnologies WM Weaver, P Tseng, A Kunze, M Masaeli, AJ Chung, JS Dudani, H Kittur, ... Current opinion in biotechnology 25, 114-123, 2014 | 129 | 2014 |
| Enhanced on-chip SERS based biomolecular detection using electrokinetically active microwells YS Huh, AJ Chung, B Cordovez, D Erickson Lab on a Chip 9 (3), 433-439, 2009 | 125 | 2009 |
| Electrokinetic microfluidic devices for rapid, low power drug delivery in autonomous microsystems AJ Chung, D Kim, D Erickson Lab on a Chip 8 (2), 330-338, 2008 | 115 | 2008 |
| Microstructure-induced helical vortices allow single-stream and long-term inertial focusing AJ Chung, D Pulido, JC Oka, H Amini, M Masaeli, D Di Carlo Lab on a Chip 13 (15), 2942-2949, 2013 | 110 | 2013 |
| Large area flexible SERS active substrates using engineered nanostructures AJ Chung, YS Huh, D Erickson Nanoscale 3 (7), 2903-2908, 2011 | 110 | 2011 |
| Pulsed laser activated cell sorting with three dimensional sheathless inertial focusing Y Chen, AJ Chung, TH Wu, MA Teitell, D Di Carlo, PY Chiou Small 10 (9), 1746-1751, 2014 | 92 | 2014 |
| Inertial Microfluidic Cell Stretcher (iMCS): Fully Automated, High‐Throughput, and Near Real‐Time Cell Mechanotyping Y Deng, SP Davis, F Yang, KS Paulsen, M Kumar, R Sinnott DeVaux, ... Small 13 (28), 1700705, 2017 | 83 | 2017 |
| Intracellular delivery of nanomaterials via an inertial microfluidic cell hydroporator Y Deng, M Kizer, M Rada, J Sage, X Wang, DJ Cheon, AJ Chung Nano letters 18 (4), 2705-2710, 2018 | 79 | 2018 |
| A robust, electrochemically driven microwell drug delivery system for controlled vasopressin release AJ Chung, YS Huh, D Erickson Biomedical microdevices 11, 861-867, 2009 | 79 | 2009 |
| A Minireview on Inertial Microfluidics Fundamentals: Inertial Particle Focusing and Secondary Flow AJ Chung BioChip Journal 13, 53-63, 2019 | 74 | 2019 |
| Microfluidic Cell Stretching for Highly Effective Gene Delivery into Hard-to-Transfect Primary Cells J Hur, I Park, KM Lim, J Doh, SG Cho, AJ Chung ACS Nano 14 (11), 15094-15106, 2020 | 65 | 2020 |
| Hydroporator: a hydrodynamic cell membrane perforator for high-throughput vector-free nanomaterial intracellular delivery and DNA origami biostability evaluation ME Kizer, Y Deng, GY Kang, PE Mikael, X Wang, AJ Chung Lab on a Chip 19 (10), 1747-1754, 2019 | 61 | 2019 |
| Microfluidic and nanofluidic intracellular delivery J Hur, AJ Chung Advanced Science 8 (15), 2004595, 2021 | 60 | 2021 |
| Intracellular Nanomaterial Delivery via Spiral Hydroporation GY Kang, DW Carlson, TH Kang, S Lee, SJ Haward, I Choi, AQ Shen, ... ACS Nano 14 (3), 3048-3058, 2020 | 54 | 2020 |
| Sugar additives improve signal fidelity for implementing two-phase resorufin-based enzyme immunoassays PA Sandoz, AJ Chung, WM Weaver, D Di Carlo Langmuir 30 (23), 6637-6643, 2014 | 50 | 2014 |
Dino Di CarloProfessor of Bioengineering, UCLA在 seas.ucla.edu 的电子邮件经过验证
