Title :
Assembly of Patterned Graphene Film Aided by Wetting/Nonwetting Surface on Liquid Interface
Author :
Zhuo Wang ; Xuesong Yang ; Chen, M.Y.
Author_Institution :
Ingram Sch. of Eng., Texas State Univ. - San Marcos, San Marcos, TX, USA
Abstract :
This paper demonstrates a methodology for preparing patterned graphene films through the destabilization of dispersed graphene in N-methyl-pyrrolidone (NMP) by addition of water, which causes the graphene to be trapped at the interface of NMP/hexane. The trapped graphene film is transferred onto the patterned wetting/nonwetting surface through dip-coating process. The quality of graphene film is studied by scanning electron microscopy and atomic force microscopy. The sheet resistance of graphene film is 1.49 × 102 kΩ/□ with surface coverage of 70% measured by the four-probe method. Field effect transistor based on such patterned graphene film is then fabricated. The current on/off ratio of devices is 1.24 with field-effect hole mobility of 159 cm2/Vs.
Keywords :
atomic force microscopy; dip coating; electrical resistivity; fullerene devices; graphene; hole mobility; scanning electron microscopy; thin film transistors; thin films; wetting; C; N-methyl-pyrrolidone; NMP-hexane interface; atomic force microscopy; current on-off ratio; dip-coating; dispersed graphene destabilization; field effect transistor; field-effect hole mobility; four-probe method; liquid interface; patterned graphene film assembly; patterned nonwetting surface; patterned wetting surface; scanning electron microscopy; sheet resistance; surface coverage; Educational institutions; Field effect transistors; Films; Graphene; Substrates; Surface morphology; Surface treatment; Field effect transistor (FET); graphene; interfacial tension; wetting/nonwetting;
Journal_Title :
Nanotechnology, IEEE Transactions on
DOI :
10.1109/TNANO.2014.2312951
