Publications

Journal Articles

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, 648-653 (2023). *Equal contribution. (Link


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). *Equal contribution. (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). *Equal contribution. (Link)


2015 - 2021

[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). *Equal contribution. (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). *Equal contribution. (Link)