Hydroporator: a hydrodynamic cell membrane perforator for high-throughput vector-free nanomaterial intracellular delivery and DNA origami biostability evaluation
Kizer, Megan E, Deng, Yanxiang, Kang, GeoumYoung, Mikael, Paiyz E, Wang, Xing, Chung, Aram J
Published in Lab on a chip (14.05.2019)
Published in Lab on a chip (14.05.2019)
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Journal Article
Highly efficient CRISPR-mediated genome editing through microfluidic droplet cell mechanoporation
Kim, You-Jeong, Yun, Dayoung, Lee, Jungjoon K., Jung, Cheulhee, Chung, Aram J.
Published in Nature communications (16.09.2024)
Published in Nature communications (16.09.2024)
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Journal Article
Melanoma cells adopt features of both mesenchymal and amoeboid migration within confining channels
Gabbireddy, Sairisheel R., Vosatka, Karl W., Chung, Aram J, Logue, Jeremy S.
Published in Scientific reports (07.09.2021)
Published in Scientific reports (07.09.2021)
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Journal Article
Microstructure-induced helical vortices allow single-stream and long-term inertial focusing
Chung, Aram J, Pulido, Dianne, Oka, Justin C, Amini, Hamed, Masaeli, Mahdokht, Di Carlo, Dino
Published in Lab on a chip (07.08.2013)
Published in Lab on a chip (07.08.2013)
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Journal Article
Enhanced on-chip SERS based biomolecular detection using electrokinetically active microwells
Huh, Yun Suk, Chung, Aram J, Cordovez, Bernardo, Erickson, David
Published in Lab on a chip (01.01.2009)
Published in Lab on a chip (01.01.2009)
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Journal Article
Continuous inertial microparticle and blood cell separation in straight channels with local microstructuresElectronic supplementary information (ESI) available: Five movies are included as part of this work. Movie S1 shows the experimental separation of 5.5 and 9.9 μm polystyrene microspheres. Movies S2 and S3 illustrate numerical analysis of single-sized particle migration (5.5 and 9.9 μm polystyrene beads), and Movie S4 shows numerical predictions of 5.5 and 9.9 μm polystyrene bead mixture sep
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Journal Article