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Jaehyuck Jang
Jaehyuck Jang
POSTECH; Stanford University
Bestätigte E-Mail-Adresse bei stanford.edu
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Zitiert von
Zitiert von
Jahr
Complex-amplitude metasurface-based orbital angular momentum holography in momentum space
H Ren*, X Fang*, J Jang*, J Bürger, J Rho, SA Maier
Nature Nanotechnology 15 (11), 948-955, 2020
6012020
Nanophotonics for light detection and ranging technology
I Kim, RJ Martins, J Jang, T Badloe, S Khadir, HY Jung, H Kim, J Kim, ...
Nature Nanotechnology 16 (5), 508-524, 2021
3732021
Pixelated bifunctional metasurface-driven dynamic vectorial holographic color prints for photonic security platform
I Kim*, J Jang*, G Kim*, J Lee, T Badloe, J Mun, J Rho
Nature Communications 12 (1), 1-9, 2021
2852021
Metasurface-Driven Optically Variable Devices
C Jung*, G Kim*, M Jeong*, J Jang*, Z Dong, T Badloe, JKW Yang, J Rho
Chemical Reviews, 2021
1832021
Stimuli‐Responsive Dynamic Metaholographic Displays with Designer Liquid Crystal Modulators
I Kim, MA Ansari, MQ Mehmood, WS Kim, J Jang, M Zubair, YK Kim, ...
Advanced Materials 32 (50), 2004664, 2020
1672020
Plasmonic-and dielectric-based structural coloring: from fundamentals to practical applications
T Lee*, J Jang*, H Jeong, J Rho
Nano Convergence 5 (1), 1-21, 2018
1642018
Outfitting next generation displays with optical metasurfaces
I Kim*, G Yoon*, J Jang*, P Genevet, KT Nam, J Rho
ACS Photonics 5 (10), 3876-3895, 2018
1502018
Scalable manufacturing of high-index atomic layer–polymer hybrid metasurfaces for metaphotonics in the visible
J Kim, J Seong, W Kim, GY Lee, S Kim, H Kim, SW Moon, DK Oh, Y Yang, ...
Nature Materials 22 (4), 474-481, 2023
1462023
Spectral modulation through the hybridization of mie-scatterers and quasi-guided mode resonances: realizing full and gradients of structural color
J Jang, T Badloe, Y Yang, T Lee, J Mun, J Rho
ACS nano 14 (11), 15317-15326, 2020
1382020
Self‐Powered Humidity Sensor Using Chitosan‐Based Plasmonic Metal–Hydrogel–Metal Filters
J Jang, K Kang, N Raeis‐Hosseini, A Ismukhanova, H Jeong, C Jung, ...
Advanced Optical Materials 8 (9), 1901932, 2020
1312020
An achromatic metafiber for focusing and imaging across the entire telecommunication range
H Ren*, J Jang*, C Li*, A Aigner, M Plidschun, J Kim, J Rho, MA Schmidt, ...
Nature Communications 13, 4183, 2022
1212022
Disordered-nanoparticle–based etalon for ultrafast humidity-responsive colorimetric sensors and anti-counterfeiting displays
C Jung*, SJ Kim*, J Jang*, JH Ko, D Kim, B Ko, YM Song, SH Hong, J Rho
Science Advances 8 (10), eabm8598, 2022
1172022
Kerker‐Conditioned Dynamic Cryptographic Nanoprints
J Jang, H Jeong, G Hu, CW Qiu, KT Nam, J Rho
Advanced Optical Materials 7 (4), 1801070, 2019
117*2019
Optical metasurfaces for generating and manipulating optical vortex beams
H Ahmed, H Kim, Y Zhang, Y Intaravanne, J Jang, J Rho, S Chen, X Chen
Nanophotonics 11 (5), 941-956, 2022
1162022
Near-zero reflection of all-dielectric structural coloration enabling polarization-sensitive optical encryption with enhanced switchability
C Jung, Y Yang, J Jang, T Badloe, T Lee, J Mun, SW Moon, J Rho
Nanophotonics 10 (2), 919-926, 2020
732020
Nearly Perfect Transmissive Subtractive Coloration through the Spectral Amplification of Mie Scattering and Lattice Resonance
T Lee, J Kim, I Koirala, Y Yang, T Badloe, J Jang, J Rho
ACS Applied Materials & Interfaces 13 (22), 26299-26307, 2021
662021
Arbitrarily structured quantum emission with a multifunctional metalens
C Li*, J Jang*, T Badloe*, T Yang, J Kim, J Kim, M Nguyen, SA Maier, ...
eLight 3 (1), 1-10, 2023
632023
Full and gradient structural colouration by lattice amplified gallium nitride mie-resonators
J Jang, T Badloe, YC Sim, Y Yang, J Mun, T Lee, YH Cho, J Rho
Nanoscale 12 (41), 21392-21400, 2020
522020
Active Color Control in a Metasurface by Polarization Rotation
M Kim*, I Kim*, J Jang*, D Lee, K Nam, J Rho
Applied Sciences 8 (6), 982, 2018
522018
Describing meta-atoms using the exact higher-order polarizability tensors
J Mun, S So, J Jang, J Rho
ACS Photonics 7 (5), 1153-1162, 2020
472020
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