| 1 |
In situ growth of self-supported and defect-engineered carbon nanotube networks on 316L stainless steel as binder-free supercapacitors
Lei R, Ni HW, Chen RS, Gu HZ, Zhang H, Dong S
Journal of Colloid and Interface Science, 532, 622, 2018 |
| 2 |
Universal model of bias-stress-induced instability in inkjet-printed carbon nanotube networks field-effect transistors
Jung H, Choi S, Jang JT, Yoon J, Lee J, Lee Y, Rhee J, Ahn G, Yu HR, Kim DM, Choi SJ, Kim DH
Solid-State Electronics, 140, 80, 2018 |
| 3 |
Nano-Engineering of SWNT Networks for Enhanced Charge Transport at Ultralow Nanotube Loading
Barbero DR, Boulanger N, Ramstedt M, Yu JC
Advanced Materials, 26(19), 3111, 2014 |
| 4 |
A Carbon Nanotube Synapse with Dynamic Logic and Learning
Kim K, Chen CL, Truong Q, Shen AM, Chen Y
Advanced Materials, 25(12), 1693, 2013 |
| 5 |
Fabrication of All-Carbon Nanotube Electronic Devices on Flexible Substrates Through CVD and Transfer Methods
Zou Y, Li QQ, Liu JK, Jin YH, Qian QK, Jiang KL, Fan SS
Advanced Materials, 25(42), 6050, 2013 |
| 6 |
Temperature-dependent electrical and photo-sensing properties of horizontally-oriented carbon nanotube networks synthesized by sandwich-growth microwave plasma chemical vapor deposition
Teng IJ, Hsu HL, Jian SR, Wang LC, Chen KL, Kuo CT, Pan FM, Wang WH, Juang JY
Thin Solid Films, 529, 190, 2013 |
| 7 |
Increased sensitivity of multiwalled carbon nanotube network by PMMA functionalization to vapors with affine polarity
Olejnik R, Slobodian P, Riha P, Machovsky M
Journal of Applied Polymer Science, 126(1), 21, 2012 |
