Seunghyup Yoo
Seunghyup Yoo
Professor, School of Electrical Engineering, KAIST, S. Korea
Verified email at - Homepage
Cited by
Cited by
Overcoming the electroluminescence efficiency limitations of perovskite light-emitting diodes
H Cho, SH Jeong, MH Park, YH Kim, C Wolf, CL Lee, JH Heo, ...
Science 350 (6265), 1222-1225, 2015
Comprehensive defect suppression in perovskite nanocrystals for high-efficiency light-emitting diodes
YH Kim, S Kim, A Kakekhani, J Park, J Park, YH Lee, H Xu, S Nagane, ...
Nature Photonics 15 (2), 148-155, 2021
Efficient thin-film organic solar cells based on pentacene/ C 60 heterojunctions
S Yoo, B Domercq, B Kippelen
Applied physics letters 85 (22), 5427-5429, 2004
Multifunctional materials for implantable and wearable photonic healthcare devices
GH Lee, H Moon, H Kim, GH Lee, W Kwon, S Yoo, D Myung, SH Yun, ...
Nature Reviews Materials 5 (2), 149-165, 2020
Controlled Doping of Vacancy-Containing Few-Layer MoS2 via Highly Stable Thiol-Based Molecular Chemisorption
DM Sim, M Kim, S Yim, MJ Choi, J Choi, S Yoo, YS Jung
ACS nano 9 (12), 12115-12123, 2015
High electron mobility in room-temperature discotic liquid-crystalline perylene diimides
Z An, J Yu, SC Jones, S Barlow, S Yoo, B Domercq, P Prins, ...
Advanced Materials 17 (21), 2580-2583, 2005
Workfunction-tunable, N-doped reduced graphene transparent electrodes for high-performance polymer light-emitting diodes
JO Hwang, JS Park, DS Choi, JY Kim, SH Lee, KE Lee, YH Kim, MH Song, ...
Acs Nano 6 (1), 159-167, 2012
Improving performance of organic solar cells using amorphous tungsten oxides as an interfacial buffer layer on transparent anodes
S Han, WS Shin, M Seo, D Gupta, SJ Moon, S Yoo
Organic Electronics 10 (5), 791-797, 2009
Organic light‐emitting diodes: pushing toward the limits and beyond
J Song, H Lee, EG Jeong, KC Choi, S Yoo
Advanced Materials 32 (35), 1907539, 2020
Selective electron‐or hole‐transport enhancement in bulk‐heterojunction organic solar cells with N‐or B‐doped carbon nanotubes
JM Lee, JS Park, SH Lee, H Kim, S Yoo, SO Kim
Advanced Materials 23 (5), 629-633, 2011
Interface modification of ITO thin films: organic photovoltaic cells
NR Armstrong, C Carter, C Donley, A Simmonds, P Lee, M Brumbach, ...
Thin Solid Films 445 (2), 342-352, 2003
Highly efficient light‐emitting diode of graphene quantum dots fabricated from graphite intercalation compounds
SH Song, MH Jang, J Chung, SH Jin, BH Kim, SH Hur, S Yoo, YH Cho, ...
Advanced Optical Materials 2 (11), 1016-1023, 2014
Synthesis of ultrathin polymer insulating layers by initiated chemical vapour deposition for low-power soft electronics
H Moon, H Seong, WC Shin, WT Park, M Kim, S Lee, JH Bong, YY Noh, ...
Nature materials 14 (6), 628-635, 2015
Origin of the open-circuit voltage in multilayer heterojunction organic solar cells
WJ Potscavage, S Yoo, B Kippelen
Applied physics letters 93 (19), 2008
Intensity-dependent equivalent circuit parameters of organic solar cells based on pentacene and C60
S Yoo, B Domercq, B Kippelen
Journal of Applied Physics 97 (10), 2005
Efficient flexible organic/inorganic hybrid perovskite light‐emitting diodes based on graphene anode
HK Seo, H Kim, J Lee, MH Park, SH Jeong, YH Kim, SJ Kwon, TH Han, ...
Advanced Materials 29 (12), 1605587, 2017
Toward all-day wearable health monitoring: An ultralow-power, reflective organic pulse oximetry sensing patch
H Lee, E Kim, Y Lee, H Kim, J Lee, M Kim, HJ Yoo, S Yoo
Science advances 4 (11), eaas9530, 2018
Nanoscale electronics: digital fabrication by direct femtosecond laser processing of metal nanoparticles
Y Son, J Yeo, H Moon, TW Lim, S Hong, KH Nam, S Yoo, ...
Advanced Materials 28 (23), 3176-3181, 2011
Resistive switching characteristics of sol–gel zinc oxide films for flexible memory applications
S Kim, H Moon, D Gupta, S Yoo, YK Choi
IEEE Transactions on Electron Devices 56 (4), 696-699, 2009
Highly flexible organic light-emitting diodes based on ZnS/Ag/WO3 multilayer transparent electrodes
H Cho, C Yun, JW Park, S Yoo
Organic Electronics 10 (6), 1163-1169, 2009
The system can't perform the operation now. Try again later.
Articles 1–20