Ti Wang
Ti Wang
Verified email at purdue.edu
TitleCited byYear
Transparent, High‐Performance Thin‐Film Transistors with an InGaZnO/Aligned‐SnO2‐Nanowire Composite and their Application in Photodetectors
X Liu, X Liu, J Wang, C Liao, X Xiao, S Guo, C Jiang, Z Fan, T Wang, ...
Advanced Materials 26 (43), 7399-7404, 2014
592014
Growth, optical, and electrical properties of nonpolar -plane ZnO on -Si substrates with Al2O3 buffer layers
T Wang, H Wu, C Chen, C Liu
Applied Physics Letters 100 (1), 011901, 2012
562012
Floating Gate Memory‐based Monolayer MoS2 Transistor with Metal Nanocrystals Embedded in the Gate Dielectrics
J Wang, X Zou, X Xiao, L Xu, C Wang, C Jiang, JC Ho, T Wang, J Li, ...
Small 11 (2), 208-213, 2015
542015
All-Printable ZnO Quantum Dots/Graphene van der Waals Heterostructures for Ultrasensitive Detection of Ultraviolet Light
M Gong, Q Liu, B Cook, B Kattel, T Wang, WL Chan, D Ewing, M Casper, ...
ACS nano 11 (4), 4114-4123, 2017
392017
Dynamical localization limiting the coherent transport range of excitons in organic crystals
T Wang, WL Chan
The journal of physical chemistry letters 5 (11), 1812-1818, 2014
352014
Nonpolar light emitting diodes of m-plane ZnO on c-plane GaN with the Al2O3 interlayer
T Wang, H Wu, H Zheng, JB Wang, Z Wang, C Chen, Y Xu, C Liu
Applied Physics Letters 102 (14), 141912, 2013
282013
Transparent capacitors based on nanolaminate Al2O3/TiO2/Al2O3 with H2O and O3 as oxidizers
GZ Zhang, H Wu, C Chen, T Wang, PY Wang, LQ Mai, J Yue, C Liu
Applied Physics Letters 104 (16), 163503, 2014
222014
Metal-catalyst-free and controllable growth of high-quality monolayer and AB-stacked bilayer graphene on silicon dioxide
Q Liu, Y Gong, T Wang, WL Chan, J Wu
Carbon 96, 203-211, 2016
212016
Shape-dependent localized surface plasmon enhanced UV-emission from ZnO grown by atomic layer deposition
Y Lin, XQ Liu, T Wang, C Chen, H Wu, L Liao, C Liu
Nanotechnology 24 (12), 125705, 2013
212013
Transparent and flexible capacitors based on nanolaminate Al2O3/TiO2/Al2O3
G Zhang, H Wu, C Chen, T Wang, J Yue, C Liu
Nanoscale research letters 10 (1), 76, 2015
192015
Improvement of optical performance of ZnO/GaN p-n junctions with an InGaN interlayer
T Wang, H Wu, Z Wang, C Chen, C Liu
Applied Physics Letters 101 (16), 161905, 2012
182012
Exciton dynamics, transport, and annihilation in atomically thin two-dimensional semiconductors
L Yuan, T Wang, T Zhu, M Zhou, L Huang
The journal of physical chemistry letters 8 (14), 3371-3379, 2017
162017
A multidimensional view of charge transfer excitons at organic donor–acceptor interfaces
T Wang, TR Kafle, B Kattel, WL Chan
Journal of the American Chemical Society 139 (11), 4098-4106, 2017
152017
Charge Transfer Exciton and Spin Flipping at Organic–Transition-Metal Dichalcogenide Interfaces
TR Kafle, B Kattel, SD Lane, T Wang, H Zhao, WL Chan
ACS nano 11 (10), 10184-10192, 2017
142017
Enhanced band-edge photoluminescence from ZnO-passivated ZnO nanoflowers by atomic layer deposition
ZW Ai, Y Wu, H Wu, T Wang, C Chen, Y Xu, C Liu
Nanoscale research letters 8 (1), 105, 2013
132013
Growing Ultra-flat Organic Films on Graphene with a Face-on Stacking via Moderate Molecule-Substrate Interaction
T Wang, TR Kafle, B Kattel, Q Liu, J Wu, WL Chan
Scientific reports 6, 28895, 2016
112016
Effect of interlayer coupling on ultrafast charge transfer from semiconducting molecules to mono-and bilayer graphene
T Wang, Q Liu, C Caraiani, Y Zhang, J Wu, WL Chan
Physical Review Applied 4 (1), 014016, 2015
112015
From two-dimensional electron gas to localized charge: Dynamics of polaron formation in organic semiconductors
T Wang, C Caraiani, GW Burg, WL Chan
Physical Review B 91 (4), 041201, 2015
112015
Observation of an ultrafast exciton hopping channel in organic semiconducting crystals
T Wang, TR Kafle, B Kattel, WL Chan
The Journal of Physical Chemistry C 120 (14), 7491-7499, 2016
102016
The function of a 60-nm-thick AlN buffer layer in n-ZnO/AlN/p-Si (111)
W Wang, C Chen, G Zhang, T Wang, H Wu, Y Liu, C Liu
Nanoscale research letters 10 (1), 91, 2015
102015
The system can't perform the operation now. Try again later.
Articles 1–20