Publications
35.
Kim, H, et al., in revision (2023).
34.
Kang, KH, et al., reivision submitted (2023).
33.
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=12.262), 23, 7341-7349 (2023). Link to article.
![]() 32.
Kwon, C, and Chung, AJ*, "Highly efficient mRNA delivery with nonlinear microfluidic cell stretching for cellular engineering", Lab on a Chip (IF=7.517), 23, 1758-1767 (2023). Link to article.
![]() 31.
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=15.153), 18, 2104822 (2022). Link to article.
![]() 30.
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=15.153), 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=18.027), 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=4.996), 11, 17804 (2021). Link to article.
![]() 28.
Hur, J, and Chung, AJ*, "Microfluidic and nanofluidic intracellular delivery", Advanced Science (IF=17.521), 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=17.521), 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=18.027), 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=18.027), 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=7.517), 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=4.229), 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=42.230), 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=17.521), 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=12.262), 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=15.153), 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=7.517), 16, 2987-2996 (2016). Lab on a Chip Emerging Investigator Themed Issue, 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=7.517), 16, 532-542 (2016). Link to article. Movie S1, S2, S3.
![]() 16. Paulsen, KS, Di Carlo, D and Chung, AJ*, "Optofluidic fabrication for 3D shaped particles", Nature Communications (IF=17.694), 6, 6976 (2015). Link to article. Movie S1, S2, S3, S4, S5.
![]() 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=4.331), 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=15.153), 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=10.279), 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=7.517),13, 2942-2949 (2013). Link to article. Movie S1, S2, S3.
![]() 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=15.153), 9, 685-690 (2013). Link to article. Movie S1, S2, S3, S4.
![]() 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=3.090), 13, 345-352 (2012). #These authors equally contributed Link to article. Movie S1, S2, S3, S4.
![]() 9. Chung, AJ, Huh, YS, and Erickson, D, “Large area flexible SERS active substrates using engineered nanostructures”, Nanoscale (IF=8.307), 3, 2903-2908 (2011). Link to article.
![]() 8. Chung, AJ, and Erickson, D, “Optofluidic waveguides for reconfigurable photonic systems”, Optics Express (IF=3.833), 19, 8602-8609 (2011) Link to article. Movie S1. S2
![]() 7. Cordovez, B, Chung, AJ, Mak, M, and Erickson, D, “A novel polymer microneedle fabrication process for active fluidic delivery”, Microfluidics and Nanofluidics (IF=3.090), 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=3.833), 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=7.517), 9, 669-676 (2009) Link to article. Movie S1, S2, S3, S4, S5.
![]() 4. Chung, AJ, Huh, YS, and Erickson, D, “A robust, electrochemically driven microwell drug delivery system for controlled vasopressin release”, Biomedical Microdevices (IF=3.783), 11, 861-867 (2009). Link to article. Movie S1, S2.
![]() 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=3.090), 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=7.517), 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=7.517), 8, 330-338 (2008). Link to article.
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