Houk Jang
Houk Jang
Brookhaven National University
Подтвержден адрес электронной почты в домене bnl.gov
Large-scale pattern growth of graphene films for stretchable transparent electrodes
KS Kim, Y Zhao, H Jang, SY Lee, JM Kim, KS Kim, JH Ahn, P Kim, ...
nature 457 (7230), 706-710, 2009
Wafer-scale synthesis and transfer of graphene films
Y Lee, S Bae, H Jang, S Jang, SE Zhu, SH Sim, YI Song, BH Hong, ...
Nano letters 10 (2), 490-493, 2010
Graphene‐based flexible and stretchable electronics
H Jang, YJ Park, X Chen, T Das, MS Kim, JH Ahn
Advanced Materials 28 (22), 4184-4202, 2016
Chemical vapor deposition-grown graphene: the thinnest solid lubricant
KS Kim, HJ Lee, C Lee, SK Lee, H Jang, JH Ahn, JH Kim, HJ Lee
ACS nano 5 (6), 5107-5114, 2011
High-performance flexible graphene field effect transistors with ion gel gate dielectrics
BJ Kim, H Jang, SK Lee, BH Hong, JH Ahn, JH Cho
Nano letters 10 (9), 3464-3466, 2010
Stretchable graphene transistors with printed dielectrics and gate electrodes
SK Lee, BJ Kim, H Jang, SC Yoon, C Lee, BH Hong, JA Rogers, JH Cho, ...
Nano letters 11 (11), 4642-4646, 2011
Vertical MoS2 Double-Layer Memristor with Electrochemical Metallization as an Atomic-Scale Synapse with Switching Thresholds Approaching 100 mV
R Xu, H Jang, MH Lee, D Amanov, Y Cho, H Kim, S Park, H Shin, D Ham
Nano letters 19 (4), 2411-2417, 2019
Conformal, graphene-based triboelectric nanogenerator for self-powered wearable electronics
H Chu, H Jang, Y Lee, Y Chae, JH Ahn
Nano Energy 27, 298-305, 2016
Large area and flexible electronics
M Caironi, YY Noh
John Wiley & Sons, 2015
An atomically thin optoelectronic machine vision processor
H Jang, C Liu, H Hinton, MH Lee, H Kim, M Seol, HJ Shin, S Park, D Ham
Advanced Materials 32 (36), 2002431, 2020
Local strain induced band gap modulation and photoluminescence enhancement of multilayer transition metal dichalcogenides
KP Dhakal, S Roy, H Jang, X Chen, WS Yun, H Kim, JD Lee, J Kim, ...
Chemistry of Materials 29 (12), 5124-5133, 2017
Flexible, transparent single-walled carbon nanotube transistors with graphene electrodes
S Jang, H Jang, Y Lee, D Suh, S Baik, BH Hong, JH Ahn
Nanotechnology 21 (42), 425201, 2010
Ultra-high modulation depth exceeding 2,400% in optically controlled topological surface plasmons
S Sim, H Jang, N Koirala, M Brahlek, J Moon, JH Sung, J Park, S Cha, ...
Nature communications 6 (1), 8814, 2015
Highly Sensitive, Gate-Tunable, Room-Temperature Mid-Infrared Photodetection Based on Graphene–Bi2Se3 Heterostructure
J Kim, S Park, H Jang, N Koirala, JB Lee, UJ Kim, HS Lee, YG Roh, H Lee, ...
ACS Photonics 4 (3), 482-488, 2017
Lithography-free plasma-induced patterned growth of MoS 2 and its heterojunction with graphene
X Chen, YJ Park, T Das, H Jang, JB Lee, JH Ahn
Nanoscale 8 (33), 15181-15188, 2016
Quantum confinement effects in transferrable silicon nanomembranes and their applications on unusual substrates
H Jang, W Lee, SM Won, SY Ryu, D Lee, JB Koo, SD Ahn, CW Yang, ...
Nano letters 13 (11), 5600-5607, 2013
In-sensor optoelectronic computing using electrostatically doped silicon
H Jang, H Hinton, WB Jung, MH Lee, C Kim, M Park, SK Lee, S Park, ...
Nature Electronics 5 (8), 519-525, 2022
Highly flexible hybrid CMOS inverter based on Si nanomembrane and molybdenum disulfide
T Das, X Chen, H Jang, IK Oh, H Kim, JH Ahn
Small 12 (41), 5720-5727, 2016
Method for producing graphene at a low temperature, method for direct transfer of graphene using same, and graphene sheet
BH Hong, J Ahn, JB Yoo, SK Bae, MH Jung, H Jang, LEE Youngbin, ...
US Patent 9,371,234, 2016
Transient SHG Imaging on Ultrafast Carrier Dynamics of MoS2 Nanosheets
H Jang, KP Dhakal, KI Joo, WS Yun, SM Shinde, X Chen, SM Jeong, ...
Advanced Materials 30 (14), 1705190, 2018
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