Multichannel carbon-nanotube FETs and complementary logic gates with nanowelded contacts

A high-performance multichannel carbon-nanotube field-effect transistor (MC-CNTFET) has been built by applying an array of parallel nanowelded single-walled carbon nanotubes (SWCNTs) as the channels. The SWCNT channel array with good directional and spatial control was obtained by the ac electric-field alignment of SWCNTs on a specially designed electrode. An ultrasonic nanowelding technique was utilized to achieve the reliable and highly transparent contacts between SWCNT channels and electrodes. Both p- and n-MC-CNTFETs fabricated exhibit high performance. Key transistor performance parameters, transconductance and carrier mobility reach 50.2 mu S and 7160 cm(2) (.) V-1 . s(-1) for p-MC-CNTFETs, and 36.5 mu S and 5311 cm(2 .) V-1 (.) s(-1) for n-MC-CNTFETs, respectively. Using the authors' techniques, complementary inverters with a high gain of up to 31.2 have also been demonstrated.