35. Y. H. Choi, W. J. Kim, D. Lee, B. J. Jung, E.C. Shin, and W. Lee, (2024) Microfluidic Capture Device for Simple, Cell Surface Marker-Based Quantification of Senescent CD8+ T Cells, BioChip Journal 34. J. A. Kim, Y. H. Choi, and W. Lee. (2022). Alteration of Inertial Focusing Positions in Triangular Channels Using Flexible PDMS Microfluidics. BioChip Journal. 33. B. J. Jung, H. Jang, G. Y. Lee, J. Kim, Z. Song, J. C. Pyun, and W. Lee. (2022). Surface Functionalization and Bonding of Chemically Inert Parylene Microfluidics Using Parylene-A Adhesive Layer. BioChip Journal. 32. C. Satheeshkumar, B. J. Jung, H. Jang, W. Lee, and M. Seo. (2021). Surface Modification of Parylene C Film via Buchwald–Hartwig Amination for Organic Solvent‐Compatible and Flexible Microfluidic Channel Bonding. Macromolecular Rapid Communications, 42(8), 2000520. 31. Y. H. Choi, J. A. Kim, and W. Lee. (2020). Changes of Inertial Focusing Position in a Triangular Channel Depending on Droplet Deformability and Size. Micromachines, 11(9), 839. 30. D. Lee, Y. Choi, and W. Lee. (2020). Enhancement of inflection point focusing and rarecell separations from untreated whole blood. Lab on a Chip, 20, 2861-2871. 29. D. Lee, J. Kim, E Song, J. Y. Jeong, E. Jeon, P. Kim, and W. Lee. (2020). Micromirror-Embedded Coverslip Assembly for Bidirectional Microscopic Imaging. Micromachines, 11(6), 582. 28. J. Kim, A. Kommajosula, Y. Choi, J. Lee, E. Jeon, B. Ganapathysubramanian, and W. Lee. (2020). Inertial focusing in triangular microchannels with various apex angles. Biomicrofluidics, 14(2), 024105. 27. J. Kim, S. M. Nam, J. Kim, Y. N. Choi, T. H. Kim, K. J. Chun, H.T. Chung, and W. Lee. (2020). Microfluidic Chip Calorimeter for Small-field Radiation Dosimetry. IEEE Sensors Journal, 20(10), 5165-5175. 26. J. Kim, S. M. Nam, H. Jang, J. P. Chung, J. Kim, B. Kim, K. J. Chun, and W. Lee. (2020). Development and application of chip calorimeter as an X-ray detector. Curr. Appl. Phys., 20(2), 337–343. 25. Seo, S., Kim, J., Choi, Y., You, J., Im, S., Lee, W. (2019). Parylene based thin-film microfluidic lens array fabricated by iCVD nano-adhesive bonding. Polymer, 181, 121763. 24. Jang, S., Jung, B.-J., Kim, M.-J., Lee, W., & Kim, D.-P. (2019). Reaction-Volume Dependent Chemistry of Highly Selective Photocatalytic Reduction of Nitrobenzene. React. Chem. Eng., 4(10), 1752-1756. 23. Nam, S. M., Kim, K., Kang, I. S., Park, W., & Lee, W. (2019). Generation of 3D Microparticles in Microchannels with Non-rectangular Cross Sections. BioChip Journal, 13(3), 226-235. 22. Kim, J., Shon, M. J., Sun, J., Jiang, X., Lee, W., & Yoon, T. Y. (2019). Profiling protein-protein interactions for single cancer cells with in situ lysis and co-immunoprecipitation. Lab on a Chip, 19(11), 1922-1928. 21. Lee, D. J., Park, H. S., Koo, K., Lee, J. Y., Nam, Y. S., Lee, W., & Yang, M. Y. (2018). Gold Binding Peptide Identified from Microfluidic Biopanning: An Experimental and Molecular Dynamics Study. Langmuir, 35(2), 522-528. 20. Yu, J. Y., Kim, J., Holland, D. B., Mou, Y., Chiu, H., Blake, G. A., Lee, W., and Guo, C. L. (2018). Multiphoton structured thin-plane imaging with a single optical path. Optics Letters, 43(21), 5271-5274. 19. Shin, S., Kim, J., Lee, J. R., Jeon, E. C., Je, T. J., Lee, W., & Park, Y. (2018). Enhancement of optical resolution in three-dimensional refractive-index tomograms of biological samples by employing micromirror-embedded coverslips. Lab on a Chip, 18(22), 3484-3491. 18. Jung, B.-J., Kim, J., Kim, J.-A., Jang, H., Seo, S., Lee, W. (2018). PDMS-Parylene Hybrid, Flexible Microfluidics for Real-Time Modulation of 3D Helical Inertial Microfluidics. Micromachines, 9, 255. 17. Lee, D., Nam, S.,Kim, J., Di Carlo, D. and Lee, W., (2018). Active control of inertial focusing position and particle separations enabled by velocity profile tuning with co-flow systems. Analytical Chemistry, 90 (4), 2902–2911 16. Kim, J., J. Lee, T. Je, E. Jeon, and W. Lee (2017). Size-dependent inertial focusing position shift and particle separations in triangular microchannels. Analytical Chemistry, 90 (3),1827–1835 15. Jang, H., Kang, I., Kim J., Kim J., Cha, Y.J., Yoon, D.K., Lee, W. (2017) Nanofluidic Chip for Liquid TEM Cell Fabricated by Parylene and Silicon Nitride Direct Bonding. Nanotechnology, 28(37), 375301 14. Kim, J., You, J., Nam, S., Seo, S., Im S., & Lee, W. (2017) Rollable Microfluidic Systems with Microscale Bending Radius and Tuning of Device Function with Reconfigurable 3D Channel Geometry. ACS Appl. Mater. Interfaces, 9(12), 11156–11166 13. Jang, H., Kang, I., Lee, Y., Cha, Y.J., Yoon, D.K., Ahn, C.W & Lee, W. (2016) Direct transfer of multilayer graphene gown on a rough metal surface using PDMS adhesion engineering. Nanotechnology, 27, 365705 12. Kim, K., Yu, H., Koh, J., Shin, J.H., Lee, W. &Park, Y., (2016) Remote sensing of pressure inside deformable microchannels using light scattering in Scotch tape. Optics Letters, 41, 1837-1840 11. Koh, J., Lee, W., & Shin, J.H. (2016) High-sensitivity chip calorimeter platform for sub-nano watt thermalmeasurement. Sens. Actuators, A, 241, 60-65 10. Kim, J., Lee, J., Wu, C., Nam, S., Di Carlo, D. & Lee, W., (2016) Inertial focusing in non-rectangular cross-section microchannels and manipulation of accessible focusing positions. Lab Chip, 16, 992-1001 9. Park, H., Lee, W., & Nam, Y., (2016) Elution Dynamics of M13 Bacteriophage Bound to Streptavidin Immobilized in a Microfluidic Channel BioChip J. 10, 48-55 8. Koh, J., Kim, J., Shin, J.H., & Lee, W., (2014) Fabrication and integration of microprism mirrors for high-speed three-dimensional measurement in inertial microfluidic system. Appl. Phys. Lett. 105, 114103 7. Amini, H., Lee, W., & Di Carlo, D., (2014) Inertial microfluidic physics. lab chip 14, 2739-2761 6. Lee, W., Lee J, Koh J. (2012) Development and applications of chip calorimeters as novel biosensors. Nanobiosensors in Disease Diagnosis. 1, 17–29 5. Lee, W., Amini, H., Stone, H. A., & Di Carlo, D., (2010) Dynamic self-assembly and control of microfluidic particle crystals. Proc. Natl. Acad. Sci. USA, 107, 22413–22418 – News coverage on Science Daily, The Chemical Engineer, UCLA Newsroom, TCE 4. Gossett, D., Weaver, W., Mach, A., Hur, S., Tse, H., Lee, W., Amini, H., and Di Carlo, D. (2010) Label-free cell separation and sorting in microfluidic systems, Anal. Bioanal. Chem.397, 3249-3267 3. Lee, W., Fon, W., Axelrod, B.W. and Roukes, M.L. (2009) High-sensitivity microfluidic calorimeters for biochemical applications. Proc. Natl. Acad. Sci. USA, 106, 15225–15230 – Highlighted in Lab Chip, 9, 2873–2874 2. Shin, J. H., Lee, W., & Han, H. (1999) 1.54μm Er+3 photoluminescent properties of erbium-doped Si/SiO2 superlattices. Appl. Phys. Lett. 74, 1573. 1. Shin, J. H. Han H., Seo, S. , & Lee, W. (1999) “Erbium doping of silicon quantum structures”, J. Korean Phys. Soc. 34 S16 10. J. Kim, W. Lee “Micro-mirror embedded imaging device for 3D imaging and manufacturing method for the imaging device” Korean patent 10-2139868-0000, Jul 24, 2020 9. D. Di Carlo, W. Lee “Particle focusing systems and methods” US Patent 10690290, Jun 23, 2020 8. W. Lee, H. Jang, H. Ihee, J. Jo “Method of observing dynamics using rapid freezing of a nanofluidic chip” Korean patent 10-2080838-0000, Feb 18, 2020 7. J. Kim, W. Lee “Apparatus for separating micro-particles in triangular microchannel” Korean patent 10-1997742-0000, Jul 02, 2019 6. E. Hwang, S. Nam, W. Lee “Ultra-precision thermostat apparatus for measurement of metabolic heat changes in cells” Korean patent 10-1875702-0000, Jul 02, 2018 5. J. Kim, K. J. Chun, H. Chung, Y. Sung, J. Chung, W. Lee “Radiation dosimeter with integrated water medium and method of manufacturing the same” Korean patent 10-1862223-0000, May 23, 2018 4. D. Lee, W. Lee “A METHOD OF PARTICLE SEPERATION BY USING A PHENOMENON OF INTERTIAL FOCUSING IN CO-FLOW” Korean patent 10-1788956-0000, Oct 16, 2017 3. J. Kim, J. Koh, W. Lee “Micro-prism mirror embedded microfludic channel and manufactureing method for the microfluidic channel” Korean patent 10-1563190-0000, Oct 20, 2015 2. Chung-Wah Fon, Michael L. Roukes, Wonhee Lee, Hongxing Tang “Microscale Calorimeter” US patent 7,762,719. Jul 27, 2010. 1. Michael L. Roukes, Chung-Wah Fon, Wonhee Lee, Hongxing Tang, Blake W. Axelrod, John Tan. “Polymer Nems for Cell Physiology and Microfabricated Cell Positioning System for Micro-Biocalorimeter” US patent 7,966,898. Jun 28, 2011. 2. J. Kim, B. Jung, D. Lee, and W. Lee “Inertial microfluidics and its applications in hematology” chapter in Dynamics of Blood Cell Suspensions in Microflows, CRC Press, 1. W. Lee, P. Tseng, D. Di Carlo. “Microfluidic Cell Sorting and Separation Technology” chapter in Microtechnology for Cell Manipulation and Sorting, Springer, Authors are also editors of the book.
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