Single-cell Manipulation Technologies

Single-cell Manipulation Technologies

Since established, our team has been working on the development of various single-cell manipulation technologies, whether it is a detection method, such as fluorescence, Raman, impedance, or mid-IR; or a manipulation method, such as acoustophoretic, dielectrophoretic, or magnetophoretic; we have had a handful of functional modules to expand our potential microfluidic applications.

Selected Project/Publications

1. Y. Li, C. Huang, S. -I. Han, and A. Han, Measurement of Dielectric Properties of Cells at Single-Cell Resolution Using Electrorotation, Biomedical Microdevices, Vol. 24, 23 (2022)
2. Song-I Han, Deborah A. Sarkes, Margaret M. Hurley, Rebecca Renberg, Can Huang, Yuwen Li, Justin P. Jahnke, James J. Sumner, Dimitra N. Stratis-Cullum, and Arum Han, Identification of Microorganisms that Bind Specifically to Target Materials of Interest Using a Magnetophoretic Microfluidic Platform, ACS Applied Materials & Interfaces 2023 15 (9), 11391-11402
3. N. Sobahi and A. Han, High-Throughput and Label-Free Multi-Outlet Cell Counting Using a Single Pair of Impedance Electrodes, Biosensors and Bioelectronics, Vol. 166, 12458 (2020)
4. H. Wang, Z. Liu, D. M. Shin, Z. G. Chen, Y. Cho, Y. -J. Kim, and A. Han, A Continuous-Flow Acoustofluidic Cytometer for Single-Cell Mechanotyping,Lab on a Chip, Vol. 19, pp. 387-393 (2019)
5. H. Wang*, G. M. Conover*, S. -I. Han, J. C. Sacchettini, and A. Han (*these authors contributed equally), Development of Single-Cell-Level Microfluidic Technology for Long-Term Growth Visualization of Living Cultures of Mycobacterium smegmatis, Microsystems and Nanoengineering, Vol. 7, Article Number: 37 (2021)