{"id":54,"date":"2016-11-23T11:10:21","date_gmt":"2016-11-23T02:10:21","guid":{"rendered":"http:\/\/mfbsl.dothome.co.kr\/?page_id=54"},"modified":"2026-01-06T17:12:04","modified_gmt":"2026-01-06T08:12:04","slug":"publications","status":"publish","type":"page","link":"https:\/\/mfbsl.kaist.ac.kr\/index.php\/publications\/","title":{"rendered":"PUBLICATIONS"},"content":{"rendered":"

<\/span>Journal (Click the images and you can see the details)<\/div>
<\/strong><\/p>\n

39. Mani, G. K., Chae, M., Yang, H., & Lee, W. (2026) Microfluidic Solid-State pH Sensor for Dynamic Monitoring of Extracellular pH in Live Cell Cultures. ACS Appl. Mater. Interfaces.<\/p>\n

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38. Chae, M., Nam, S. M., Seo, S., Choi, Y.-han, Yang, H., Kim, J., Jung, B.-J., & Lee, W. (2025) Picoliter-Volume Isothermal Titration Calorimetry UsingParylene Chip Calorimeter Integrated with on-DemandDroplet Micro\ufb02uidics. small. 2504872<\/p>\n

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37. Hwang, H., Jung, B-J., Park, J., Jeong, Y., Choi, Y., Kang, J.Y., & Lee, W. (2025) Integrated parylene-based thin-film microfluidic device for time-resolved cryo-electron microscopy. Adv. Funct. Mat. 2418224<\/p>\n

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36. Kang, I., Bilbily, J., Kim, C. Y., Shi, C., Madasu, M. K., Jeong, E. Y., Parker, K. E., Kwon, D. A., Jung, B. J., Yang, J. S., Lee, J., Kabbaj, N. D. L., Lee, W., Yoon, J. B., Al-Hasani, R., Xiao, J., McCall, J. G., & Jeong, J. W. (2024). Wireless Modular Implantable Neural Device with One-touch Magnetic Assembly for Versatile Neuromodulation. Adv Sci, 12(4), 2406576<\/p>\n

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 <\/p>\n

35. Choi, Y.-h., Kim, W.-J., Lee, D., Jung, B.-J., Shin, E.-C., & Lee, W. (2024). Microfluidic Capture Device for Simple, Cell Surface Marker-Based Quantification of Senescent CD8+ T Cells. BioChip Journal, 18: p.382-392<\/p>\n

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34. Kim, J.-a., Y.-h. Choi, & W. Lee. (2022). Alteration of Inertial Focusing Positions in Triangular Channels Using Flexible PDMS Microfluidics. BioChip Journal, 16(3): p. 342-350.<\/p>\n

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33. Jung, B.-J., Jang, H., Lee, G. Y., Kim, J., Song, Z., Pyun, J. C., & Lee, W. (2022). Surface Functionalization and Bonding of Chemically Inert Parylene Microfluidics Using Parylene-A Adhesive Layer. BioChip Journal, 16(2): p. 168-174.<\/p>\n

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32. Satheeshkumar, C., Jung, B.-J., Jang, H., Lee, W., & Seo, M. (2021). Surface Modification of Parylene C Film via Buchwald-Hartwig Amination for Organic Solvent-Compatible and Flexible Microfluidic Channel Bonding. Macromol. Rapid Commun. 42(8): p. e2000520.<\/p>\n

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31. Y. H. Choi, J. A. Kim, & W. Lee. (2020). Changes of Inertial Focusing Position in a Triangular Channel Depending on Droplet Deformability and Size. Micromachines<\/i>,\u00a011<\/i>(9), 839.<\/p>\n

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 <\/p>\n

30. D. Lee, Y. Choi, & W. Lee. (2020). Enhancement of inflection point focusing and rarecell separations from untreated whole blood. Lab on a Chip, 20, 2861-2871.<\/p>\n

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 <\/p>\n

29. D. Lee, J. Kim, E Song, J. Y. Jeong, E. Jeon, P. Kim, & W. Lee. (2020). Micromirror-Embedded Coverslip Assembly for Bidirectional Microscopic Imaging. Micromachines, 11(6), 582.<\/p>\n

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28. J. Kim, A. Kommajosula, Y. Choi, J. Lee, E. Jeon, B. Ganapathysubramanian, & W. Lee. (2020). Inertial focusing in triangular microchannels with various apex angles. Biomicrofluidics, 14(2), 024105.<\/p>\n

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27. J. Kim, S. M. Nam, J. Kim, Y. N. Choi, T. H. Kim, K. J. Chun, H.T. Chung, & W. Lee. (2020). Microfluidic Chip Calorimeter for Small-field Radiation Dosimetry. IEEE Sensors Journal, 20(10), 5165-5175.<\/p>\n

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26. J. Kim, S. M. Nam, H. Jang, J. P. Chung, J. Kim, B. Kim, K. J. Chun, & W. Lee. (2020). Development and application of chip calorimeter as an X-ray detector. Curr. Appl. Phys., 20(2), 337\u2013343.<\/p>\n

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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.<\/p>\n

\"pub_25\"<\/a><\/p>\n

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.<\/p>\n

\"pub_24\"<\/a><\/p>\n

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.<\/p>\n

\"pub_23\"<\/a><\/p>\n

22. Ryu, J., 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<\/em> lysis and co-immunoprecipitation.\u00a0Lab on a Chip, 19(11), 1922-1928.<\/p>\n

\"Pub_22\"<\/a><\/p>\n

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.\u00a0Langmuir,\u00a035(2), 522-528.<\/p>\n

\"pub_21\"<\/a><\/p>\n

20. Yu, J. Y., Kim, J., Holland, D. B., Mou, Y., Chiu, H., Blake, G. A., Lee, W., & Guo, C. L. (2018). Multiphoton structured thin-plane imaging with a single optical path. Optics Letters, 43(21), 5271-5274.<\/p>\n

\"pub_20\"<\/a><\/p>\n

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,\u00a018(22), 3484-3491.<\/p>\n

\"pub_19\"<\/a><\/p>\n

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.<\/p>\n

\"Pub_18_low\"<\/a><\/p>\n

17. Lee, D., Nam, S.,Kim, J., Di Carlo, D. & 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\u20132911<\/p>\n

\"Pub_17_LDW\"<\/a><\/p>\n

16. Kim, J., J. Lee, T. Je, E. Jeon, & W. Lee (2017). Size-dependent inertial focusing position shift and particle separations in triangular microchannels. Analytical Chemistry, 90 (3),1827\u20131835<\/p>\n

\"Pub_16_J\"<\/a><\/p>\n

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<\/p>\n

\"P15\"<\/a><\/p>\n

14. Kim, J., You, J., Nam, S., Seo, S., Im S., & Lee, W. (2017)\u00a0Rollable Microfluidic Systems with Microscale Bending Radius and Tuning of Device Function with Reconfigurable 3D Channel Geometry. ACS Appl. Mater. Interfaces, 9(12), 11156\u201311166<\/p>\n

\"P14\"<\/a><\/p>\n

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<\/p>\n

\"P13\"<\/a><\/p>\n

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<\/p>\n

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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<\/p>\n

\"P11\"<\/a><\/p>\n

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<\/p>\n

\"P10\"<\/a><\/p>\n

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<\/p>\n

\"P9\"<\/a><\/p>\n

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<\/p>\n

\"P8\"<\/a><\/p>\n

7. Amini, H., Lee, W., & Di Carlo, D., (2014) Inertial microfluidic physics. lab chip 14, 2739-2761<\/p>\n

\"P7\"<\/a><\/p>\n

6. Lee, W., Lee J, & Koh J. (2012) Development and applications of chip calorimeters as novel biosensors. Nanobiosensors in Disease Diagnosis. 1, 17\u201329<\/p>\n

\"P6\"<\/a><\/p>\n

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\u201322418 – News coverage on Science Daily, The Chemical Engineer, UCLA Newsroom, TCE<\/p>\n

\"P5\"<\/a><\/p>\n

4. Gossett, D., Weaver, W., Mach, A., Hur, S., Tse, H., Lee, W., Amini, H., & Di Carlo, D. (2010) Label-free cell separation and sorting in microfluidic systems, Anal. Bioanal. Chem.397, 3249-3267<\/p>\n

\"P4\"<\/a><\/p>\n

3. Lee, W., Fon, W., Axelrod, B.W. & Roukes, M.L. (2009) High-sensitivity microfluidic calorimeters for biochemical applications. Proc. Natl. Acad. Sci. USA, 106, 15225\u201315230 – Highlighted in Lab Chip, 9, 2873\u20132874<\/p>\n

\"P3\"<\/a><\/p>\n

2. Shin, J. H., Lee, W., & Han, H. (1999) 1.54\u03bcm Er+3 photoluminescent properties of erbium-doped Si\/SiO2 superlattices. Appl. Phys. Lett. 74, 1573.<\/p>\n

1. Shin, J. H. Han H., Seo, S. , & Lee, W. (1999) \u201cErbium doping of silicon quantum structures\u201d, J. Korean Phys. Soc. 34 S16<\/p>\n<\/div><\/div>\n

<\/span>Patent<\/div>
<\/strong><\/p>\n

10. J. Kim, W. Lee \u201cMicro-mirror embedded imaging device for 3D imaging and manufacturing method for the imaging device\u201d Korean patent \u00a010-2139868-0000, Jul 24, 2020<\/p>\n

9. D. Di Carlo, W. Lee \u201cParticle focusing systems and methods\u201d US Patent 10690290, Jun 23, 2020<\/p>\n

8. W. Lee, H. Jang, H. Ihee, J. Jo \u201cMethod of observing dynamics using rapid freezing of a nanofluidic chip\u201d Korean patent 10-2080838-0000, Feb 18, 2020<\/p>\n

7. J. Kim, W. Lee \u201cApparatus for separating micro-particles in triangular microchannel\u201d Korean patent 10-1997742-0000, Jul 02, 2019<\/p>\n

6. E. Hwang, S. Nam, W. Lee \u201cUltra-precision thermostat apparatus for measurement of metabolic heat changes in cells\u201d Korean patent 10-1875702-0000, Jul 02, 2018<\/p>\n

5. J. Kim, K. J. Chun, H. Chung, Y. Sung, J. Chung, W. Lee \u201cRadiation dosimeter with integrated water medium and method of manufacturing the same\u201d Korean patent 10-1862223-0000, May 23, 2018<\/p>\n

4. D. Lee, W. Lee “A METHOD OF PARTICLE SEPERATION BY USING A PHENOMENON OF INTERTIAL FOCUSING IN CO-FLOW” Korean patent\u00a010-1788956-0000, Oct 16, 2017<\/p>\n

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<\/p>\n

2. Chung-Wah Fon, Michael L. Roukes, Wonhee Lee, Hongxing Tang \u201cMicroscale Calorimeter\u201d US patent 7,762,719. Jul 27, 2010.<\/p>\n

1. Michael L. Roukes, Chung-Wah Fon, Wonhee Lee, Hongxing Tang, Blake W. Axelrod, John Tan. \u201cPolymer Nems for Cell Physiology and Microfabricated Cell Positioning System for Micro-Biocalorimeter\u201d US patent 7,966,898. Jun 28, 2011.
\n<\/div><\/div>\n

<\/span>Book chapter<\/div>
<\/strong><\/p>\n

2. J. Kim, B. Jung, D. Lee, and W. Lee \u201cInertial microfluidics and its applications in hematology\u201d chapter in Dynamics of Blood Cell Suspensions in Microflows<\/em>, CRC Press,<\/p>\n

1. W. Lee, P. Tseng, D. Di Carlo. \u201cMicrofluidic Cell Sorting and Separation Technology\u201d chapter in Microtechnology for Cell Manipulation and Sorting<\/em>, Springer, Authors are also editors of the book.<\/p>\n<\/div><\/div>\n","protected":false},"excerpt":{"rendered":"","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":[],"_links":{"self":[{"href":"https:\/\/mfbsl.kaist.ac.kr\/index.php\/wp-json\/wp\/v2\/pages\/54"}],"collection":[{"href":"https:\/\/mfbsl.kaist.ac.kr\/index.php\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/mfbsl.kaist.ac.kr\/index.php\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/mfbsl.kaist.ac.kr\/index.php\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/mfbsl.kaist.ac.kr\/index.php\/wp-json\/wp\/v2\/comments?post=54"}],"version-history":[{"count":116,"href":"https:\/\/mfbsl.kaist.ac.kr\/index.php\/wp-json\/wp\/v2\/pages\/54\/revisions"}],"predecessor-version":[{"id":1922,"href":"https:\/\/mfbsl.kaist.ac.kr\/index.php\/wp-json\/wp\/v2\/pages\/54\/revisions\/1922"}],"wp:attachment":[{"href":"https:\/\/mfbsl.kaist.ac.kr\/index.php\/wp-json\/wp\/v2\/media?parent=54"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}