Deyu Tu
Deyu Tu
Laboratory of Organic Electronics, Link÷ping University
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Cited by
Cited by
All-printed large-scale integrated circuits based on organic electrochemical transistors
P Andersson Ersman, R Lassnig, J Strandberg, D Tu, V Keshmiri, ...
Nature communications 10 (1), 5053, 2019
A high-conductivity n-type polymeric ink for printed electronics
CY Yang, MA Stoeckel, TP Ruoko, HY Wu, X Liu, NB Kolhe, Z Wu, ...
Nature communications 12 (1), 2354, 2021
Organic electrochemical neurons and synapses with ion mediated spiking
PC Harikesh, CY Yang, D Tu, JY Gerasimov, AM Dar, A Armada-Moreira, ...
Nature communications 13 (1), 901, 2022
Controlling the growth of single crystalline nanoribbons of copper tetracyanoquinodimethane for the fabrication of devices and device arrays
Y Liu, H Li, D Tu, Z Ji, C Wang, Q Tang, M Liu, W Hu, Y Liu, D Zhu
Journal of the American Chemical Society 128 (39), 12917-12922, 2006
Influence of molecular weight on the organic electrochemical transistor performance of ladder‐type conjugated polymers
HY Wu, CY Yang, Q Li, NB Kolhe, X Strakosas, MA Stoeckel, Z Wu, W Jin, ...
Advanced Materials 34 (4), 2106235, 2022
Organic nonpolar nonvolatile resistive switching in poly (3, 4-ethylene-dioxythiophene): Polystyrenesulfonate thin film
X Liu, Z Ji, D Tu, L Shang, J Liu, M Liu, C Xie
Organic Electronics 10 (6), 1191-1194, 2009
Single light-emitting polymer nanofiber field-effect transistors
D Tu, S Pagliara, A Camposeo, L Persano, R Cingolani, D Pisignano
Nanoscale 2 (10), 2217-2222, 2010
Ion-tunable antiambipolarity in mixed ion–electron conducting polymers enables biorealistic organic electrochemical neurons
PC Harikesh, CY Yang, HY Wu, S Zhang, MJ Donahue, AS Caravaca, ...
Nature materials 22 (2), 242-248, 2023
Three-dimensional CMOL: three-dimensional integration of CMOS/nanomaterial hybrid digital circuits
D Tu, M Liu, W Wang, S Haruehanroengra
Micro & Nano Letters 2 (2), 40-45, 2007
Screen printed digital circuits based on vertical organic electrochemical transistors
PA Ersman, D Westerberg, D Tu, M Nilsson, J ┼hlin, A Eveborn, ...
Flexible and Printed Electronics 2 (4), 045008, 2017
Low‐power/high‐gain flexible complementary circuits based on printed organic electrochemical transistors
CY Yang, D Tu, TP Ruoko, JY Gerasimov, HY Wu, PC Harikesh, ...
Advanced Electronic Materials 8 (3), 2100907, 2022
2-D drift-diffusion simulation of organic electrochemical transistors
MZ Szymański, D Tu, R Forchheimer
IEEE Transactions on Electron Devices 64 (12), 5114-5120, 2017
A static model for electrolyte-gated organic field-effect transistors
D Tu, L Herlogsson, L Kergoat, X Crispin, M Berggren, R Forchheimer
IEEE transactions on electron devices 58 (10), 3574-3582, 2011
Mixed ion-electron transport in organic electrochemical transistors
D Tu, S Fabiano
Applied Physics Letters 117 (8), 2020
A biomimetic evolvable organic electrochemical transistor
JY Gerasimov, D Zhao, A Sultana, T Abrahamsson, S Han, D Bliman, ...
Advanced Electronic Materials 7 (11), 2001126, 2021
Light-induced hysteresis characteristics of copper phthalocyanine organic thin-film transistors
L Zhen, L Shang, M Liu, D Tu, Z Ji, X Liu, G Liu, J Liu, H Wang
Applied Physics Letters 93 (20), 2008
Monolithic integration of display driver circuits and displays manufactured by screen printing
PA Ersman, M Zabihipour, D Tu, R Lassnig, J Strandberg, J ┼hlin, ...
Flexible and Printed Electronics 5 (2), 024001, 2020
Low-Voltage Organic Field-Effect Transistor With PMMA/ Bilayer Dielectric
L Shang, M Liu, D Tu, G Liu, X Liu, Z Ji
IEEE transactions on electron devices 56 (3), 370-376, 2009
Copper‐Plated Paper for High‐Performance Lithium‐Ion Batteries
Z Wang, A Malti, L Ouyang, D Tu, W Tian, L Wňgberg, MM Hamedi
Small 14 (48), 1803313, 2018
A ZEP520-LOR bilayer resist lift-off process by e-beam lithography for nanometer pattern transfer
D Tu, M Liu, L Shang, C Xie, X Zhu
2007 7th IEEE Conference on Nanotechnology (IEEE NANO), 624-627, 2007
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Articles 1–20