posted on 2017-02-14, 17:40authored byXuan Cao, Fanqi Wu, Christian Lau, Yihang Liu, Qingzhou Liu, Chongwu Zhou
Semiconducting single-wall carbon
nanotubes are ideal semiconductors
for printed thin-film transistors due to their excellent electrical
performance and intrinsic printability with solution-based deposition.
However, limited by resolution and registration accuracy of current
printing techniques, previously reported fully printed nanotube transistors
had rather long channel lengths (>20 μm) and consequently
low
current-drive capabilities (<0.2 μA/μm). Here we report
fully inkjet printed nanotube transistors with dramatically enhanced
on-state current density of ∼4.5 μA/μm by downscaling
the devices to a sub-micron channel length with top-contact self-aligned
printing and employing high-capacitance ion gel as the gate dielectric.
Also, the printed transistors exhibited a high on/off ratio of ∼105, low-voltage operation, and good mobility of ∼15.03
cm2 V–1s–1. These advantageous
features of our printed transistors are very promising for future
high-definition printed displays and sensing systems, low-power consumer
electronics, and large-scale integration of printed electronics.