Chung Lab @ KU
Journal Articles (Google Scholar & ORCID; IF = 2023 JCR Impact Factor)

38. Kim, Y-J, et al., in revision (2024).
37. Cho, Y, et al., submitted (2024).
36. Kang, KH, et al., reivision submitted (2024).
35. Kim, H, Kim, S, Lim, H, and Chung, AJ*, "Expanding CAR-T Cell immunotherapy horizons through microfluidics", Lab on a Chip (IF=6.1), 24, 1088-1120 (2024). Link to article
34. Hur, J, Kim H, Kim, U, Kim, G-B, Kim, J, Joo, B, Cho, D, Lee, D-S, and Chung, AJ*, "Genetically stable and scalable nanoengineering of human primary T cells via cell mechanoporation", Nano Letters (IF=10.8), 23, 7341-7349 (2023). Link to article.
33. Kwon, C, and Chung, AJ*, "Highly efficient mRNA delivery with nonlinear microfluidic cell stretching for cellular engineering", Lab on a Chip (IF=6.1), 23, 1758-1767 (2023). Link to article.
32. Petchakup, S, Yang, H, Gong, L, He, L, Dalan, R, Chung, AJ, Li, KHH, and Hou, HW, "Microfluidic impedance-deformability cytometry for label-free single neutrophil mechanophenotyping", Small (IF=13.3), 18, 2104822 (2022). Link to article.
31. Yu, E-S, Chae, K, Kim, T, Lee, T, Seo, J, Kim, IS, Chung, AJ, Lee, S-D, and Ryu, Y-S, "Development of a photonic switch via electro-capillarity-induced water penetration across a 10-nm gap", Small (IF=13.3), 18, 210760 (2022). Link to article.
30. Joo, B, Hur, J, Kim, G-B, Yun, SG, and Chung, AJ*, "Highly efficient transfection of human primary T lymphocytes using droplet-enabled mechanoporation", ACS Nano (IF=17.1), 15, 12888-12898 (2021). Link to article.
29. Gabbireddy, SR, Vosatka, KW, Chung, AJ, and Logue, JS, "Melanoma cells adopt features of both mesenchymal and amoeboid migration within confining channels", Scientific Reports (IF=4.6), 11, 17804 (2021). Link to article.
28. Hur, J, and Chung, AJ*, "Microfluidic and nanofluidic intracellular delivery", Advanced Science (IF=15.1), 2004595 (2021). Link to article.
27. Yu, E-S, Lee, S-H, Lee, G, Park, Q-H, Chung, AJ, Seo, M and Ryu, Y-S, "Nanoscale terahertz monitoring on multi-phase dynamic assembly of nanoparticles under aqueous environment", Advanced Science (IF=15.1), 2004826 (2021). Link to article.
26. Hur, J, Park, I, Lim, KM, Doh, JS, Cho, S-G and Chung, AJ*, "Microfluidic cell stretching for highly effective gene delivery into hard-to-transfect primary cells", ACS Nano (IF=17.1), 14, 15094-15106 (2020). Link to article.
25. Kang, GY, Carlson, DW, Kang, TH, Lee, S, Haward, SJ, Choi, I, Shen, AQ and Chung, AJ*, " Intracellular nanomaterial delivery via spiral hydroporation ", ACS Nano (IF=17.1), 14, 3048-3058 (2020). Link to Article.
24. Kizer, M#, Deng, Y#, Kang, GY, Mikael, PE, Wang, X and Chung, AJ*, "Hydroporator: A hydrodynamic cell membrane perforator for high-throughput vector-free nanomaterial intracellular delivery and DNA origami biostability evaluation", Lab on a Chip (IF=6.1), 19, 1747-1754 (2019). Link to Article
23. Chung, AJ*, "A minireview on inertial microfluidics fundamentals: Inertial particle focusing and Secondary flow", BioChip Journal (IF=4.3), 13, 53-63 (2019). Link to Article
22. Xin, G, Zhu, W, Deng, Y, Liu, L, Chung, AJ, De, S and Lian, J, "Microfluidics-enabled Orientation and Microstructure Control of Macroscopic Graphene Fibres", Nature Nanotechnology (IF=38.3), 14, 168-175 (2019). Link to Article
21. Paulsen, KS, Deng, Y and Chung, AJ*, "DIY 3D Microparticle Generation from Next Generation-Optofluidic Fabrication", Advanced Science (IF=15.1), 5,1800252 (2018). Link to Article
20. Deng, Y, Kizer, M, Rada, M, Sage, J, Wang, X, Cheon, DJ and Chung, AJ*, "Intracellular Delivery of Nanomaterials via an Inertial Microfluidic Cell Hydroporator", Nano Letters (IF=10.8), 18, 4, 2705-2710 (2018). Link to article
19. Deng, Y, Davis, SP, Yang, F, Paulsen, KS, Kumar, M, Sinnott-DeVaux, R, Wang, X, Conklin, DS, Oberai, A, Herschkowitz, JI and Chung, AJ*, "Inertial microfluidic cell stretcher (iMCS): Fully automated, high-throughput, and near real-time cell mechanotyping", Small (IF=13.3), 13, 1700705 (2017). Link to article.
18. Paulsen, KS and Chung, AJ*, "Non-spherical particle generation from 4D optofluidic fabrication", Lab on a Chip (IF=6.1), 16, 2987-2996 (2016). Link to article.
17. Wu, Z, Chen, Y, Wang, M and Chung, AJ*, "Continuous inertial microparticle and blood cell separation in straight channels with local microstructures", Lab on a Chip (IF=6.1), 16, 532-542 (2016). Link to article.
16. Paulsen, KS, Di Carlo, D and Chung, AJ*, "Optofluidic fabrication for 3D shaped particles", Nature Communications (IF=16.6), 6, 6976 (2015). Link to article.
15. Sandoz, P, Chung, AJ, Weaver, WM and Di Carlo, D, "Sugar additives improve signal fidelity for implementing two-phase resorufin-based enzyme immunoassays", Langmuir (IF=3.9), 30, 6637-6643 (2014). Link to article.
14. Chen,Y, Chung, AJ, Wu, T-H, Teitell, MA, Di Carlo, D, and Chiou, P-Y, "Pulsed laser activated cell sorting with three dimensional sheathless inertial focusing", Small (IF=13.3), 10, 1746-1751 (2014). Link to article.
13. Weaver, WM, Tseng, P, Kunze, A, Masaeli, M, Chung, AJ, Dudani, JS, Kittur, H, Kulkarni, RP, and Di Carlo, D, "Advances in high-throughput single-cell microtechnologies", Current Opinion in Biotechnology (IF=7.7), 25, 114-123 (2014). Link to article.
12. Chung, AJ, Pulido, D, Oka, JC, Masaeli, M, Amini, H, and Di Carlo, D, "Microstructure induced local helical vortices allow single-stream and long-term inertial focusing", Lab on a Chip (IF=6.1),13, 2942-2949 (2013). Link to article.
11.  Chung, AJ, Gossett, DR, and Di Carlo, D, "Three dimensional, sheathless, and high-throughput microparticle inertial focusing through geometry-induced secondary flows", Small (IF=13.3), 9, 685-690 (2013). Link to article.
10. Chung, AJ#, Cordovez, B#, Jasuja, N, Lee, DJ, Huang, T, and Erickson, D, “Implantable microfluidic and electronic systems for insect flight manipulation”, Microfluidics and Nanofluidics (IF=2.8), 13, 345-352 (2012). #These authors equally contributed Link to article.
9. Chung, AJ, Huh, YS, and Erickson, D, “Large area flexible SERS active substrates using engineered nanostructures”, Nanoscale (IF=6.7), 3, 2903-2908 (2011). Link to article.
8. Chung, AJ, and Erickson, D, “Optofluidic waveguides for reconfigurable photonic systems”, Optics Express (IF=3.8), 19, 8602-8609 (2011) Link to article.
7. Cordovez, B, Chung, AJ, Mak, M, and Erickson, D, “A novel polymer microneedle fabrication process for active fluidic delivery”, Microfluidics and Nanofluidics (IF=2.8), 10, 785-791 (2011) Link to article.
6. Jung, EE, Chung, AJ, and Erickson, D, “Analysis of liquid-to-solid coupling and other performance parameters for microfluidically reconfigurable photonic systems”, Optics Express (IF=3.8), 11, 10973-10984 (2010) Link to article.
5. Chung, AJ, and Erickson, D, “Engineering insect flight metabolics using immature stage implanted microfluidics”, Lab on a Chip (IF=6.1), 9, 669-676 (2009) Link to article.
4. Chung, AJ, Huh, YS, and Erickson, D, “A robust, electrochemically driven microwell drug delivery system for controlled vasopressin release”, Biomedical Microdevices (IF=2.8), 11, 861-867 (2009). Link to article.
3. Huh, YS#, Chung, AJ# and Erickson, D, “Review: Surface enhanced Raman spectroscopy and its application to molecular and cellular analysis”, Microfluidics and Nanofluidics (IF=2.8), 6, 285-297 (2009) #These authors equally contributed. Link to article.
2. Huh, YS, Chung, AJ, Cordovez, B, and Erickson, D, “Enhanced on-chip SERS based biomolecular detection using electrokinetically active microwells”, Lab on a Chip (IF=6.1), 9, 433-439 (2009). Link to article.
1. Chung, AJ, Kim D, and Erickson, D, “Electrokinetic microfluidic devices for rapid, low power drug delivery in autonomous microsystems”, Lab on a Chip (IF=6.1), 8, 330-338 (2008). Link to article.