Publications

Submitted

[1] Evanescent-field-guiding 2D ultrathin waveguides for seamlessly integrated devices
S. Kim†, C. Hong†, G. Baek, S. Kwon, Y. Chung, S. Woo, E. Kim, and M. Lee*

[2] CMOS-compatible ultra-thin HfO2 waveguides with tailored cladding symmetry for millimeter-scale light propagation
H. Kim†, S. Kwon†, S. Kim, G. Baek, Y. Chung, and M. Lee*

[3] Metasurface color routers inverse-designed with an accelerated genetic algorithm for high efficiency imaging
H. Park†, S. Kim†, Y. Park*, and M. Lee*

2025

[18] 1,550-nm photonic crystal surface-emitting laser diode fabricated by single deep air-hole etch
M. Kim, Y. Song, L. Jeong,  T. Lee,  H. Choi,  I. Kim,  M. Lee*, and H. Jeon*
Nanophotonics, 14(4), 515-522 (2025).  (Link) 

2024

[17] A Case Study on the Establishment of a CQI System: Focused on the Department of Materials Science and Engineering at Seoul National University
J. Kim, M. Lee, M. H. Park, and T.-W. Lee*
Journal of Engineering Education Research, 27(6), 14-27 (2024). (Link) 

2023

[16] Wafer-scale δ waveguides for integrated two-dimensional photonics
M. Lee†, H. Hong†, J. Yu, F. Mujid, A. Ye, C. Liang, and J. Park*
Science, 381(6658), 648-653 (2023). (Link) 

2015 - 2022

[15] Two-dimensional mechanics of atomically thin solids on water
J. Yu, C. Liang, M. Lee, S. Das, A. Ye, F. Mujid, P. Poddar, B. Cheng, N. Abbott, and J. Park*
Nano Letters, 22, 7180-7186 (2022). (Link)

[14] Robotic four-dimensional pixel assembly of van der Waals solids
A. J. Mannix†, A. Ye†, S. H. Sung, A. Ray, F. Mujid, C. Park, M. Lee, J.-H. Kang, R. Shreiner, A. A. High, D. A. Muller, R. Hovden, and J. Park*
Nature Nanotechnology, 17, 361-366 (2022). (Link)

[13] Resist-free lithography for monolayer transition metal dichalcogenides
P. Poddar†, Y. Zhong†, A. Mannix, F. Mujid, J. Yu, C. Liang, J.-H. Kang, M. Lee, S. Xie, and J. Park*
Nano Letters, 22, 726-732 (2022). (Link)

[12] Atomically thin, optically isotropic films with 3D nanotopography
M. Lee†, J.-H. Kang†, F. Mujid, J. Suh, A. Ray, C. Park, D. A. Muller, and J. Park*
Nano Letters, 21, 7291-7297 (2021). (Link)

[11] Taming of random lasers
M. Lee, S. Callard, C. Seassal, and H. Jeon*
Nature Photonics, 13, 445-448 (2019). (Link)

[10] Lasing at topological edge state in a photonic crystal L3 nanocavity dimer array
C. Han, M. Lee, S. Callard, C. Seassal, and H. Jeon*
Light: Science & Applications, 8, 40 (2019). (Link)

[9] Anderson localizations and photonic band-tail states observed in compositionally disordered platform
M. Lee, J. Lee, S. Kim, S. Callard, C. Seassal, and H. Jeon*
Science Advances, 4, e1602796 (2018). (Link)

[8] Electrical modulation of photonic crystal band-edge laser with graphene monolayer
H. Kim, M. Lee, H. Jeong, M.-S. Hwang, H.-R. Kim, S. Park, Y. Park, T. Lee, H.-G. Park, and H. Jeon*
Nanoscale, 10, 8496-8502 (2018). (Link)

[7] Wet-Transfer of Freestanding Dense Colloidal Quantum Dot Films and Their Photonic Device Application
C. Han, H. Jung, J. Lee, M. Lee, Y. Park, K.-S. Cho, and H. Jeon*
Advanced Materials Technologies, 3, 1700297 (2018). (Link)

[6] Efficient on-chip integration of a colloidal quantum dot photonic crystal band-edge laser with a coplanar waveguide
H. Jung, M. Lee, C. Han, Y. Park, K.-S. Cho, and H. Jeon*
Optics Express, 25, 32919-32930 (2017). (Link)

[5] Two-dimensional photonic crystal bandedge laser with hybrid perovskite thin film for optical gain
H. Cha†, S. Bae†, M. Lee, and H. Jeon*
Applied Physics Letters, 108, 181104 (2016). (Link)

[4] Colloidal quantum dot lasers built on a passive two-dimensional photonic crystal backbone
H. Chang, K. Min, M. Lee, M. Kang, Y. Park, K.-S. Cho, Y.-G. Roh, S. W. Hwang, and H. Jeon*
Nanoscale, 8, 6571-6576 (2016). (Link)

[3] Eco-friendly photolithography using water-developable pure silk fibroin
J. Park, S.-G. Lee, B. Marelli, M. Lee, T. Kim, H.-K. Oh, H. Jeon, F. G. Omenetto, and S. Kim*
RSC Advances, 6, 39330-39334 (2016). (Link)

[2] A highly tunable and fully biocompatible silk nanoplasmonic optical sensor
M. Lee, H. Jeon, and S. Kim*
Nano Letters, 15, 3358-3363 (2015). (Link)

[1] Novel and simple route to fabricate fully biocompatible plasmonic mushroom arrays adhered on silk biopolymer
J. Park† , Y. Choi†, M. Lee†, H. Jeon, and S. Kim*
Nanoscale, 7, 426-431 (2015). (Link)