Title :
Modified RCA clean transfer of graphene and all-carbon electronic devices fabrication
Author :
Liang, Xuelei ; Sperling, Brent A. ; Calizo, Irene ; Cheng, Guangjun ; Hacker, Christina A. ; Zhang, Qin ; Obeng, Yaw S. ; Yan, Kai ; Peng, Hailin ; Walker, Angela R Hight ; Richter, Curt A.
Author_Institution :
Nat. Inst. of Stand. & Technol., Gaithersburg, MD, USA
Abstract :
Graphene is regarded as a promising material that could be the basis for future generations of low-power, faster, and smaller electronics [1,2]. Currently, chemical vapor deposition (CVD) growth method is the only way that can produce large area monolayer graphene up to tens of inches with high quality [3,4], which makes it the most promising graphene producing method for large scale device applications. The first step necessary in fabricating devices from CVD-grown graphene, is to transfer the graphene from the metal growth substrate onto a device-compatible substrate (typically an insulator). It is crucial to device performance, yield, and uniformity that the quality of the graphene is not degraded during this transfer process.
Keywords :
carbon nanotube field effect transistors; chemical vapour deposition; graphene; low-power electronics; nanofabrication; semiconductor growth; C; CVD-grown graphene; all-carbon electronic device fabrication; carbon field effect transistors; chemical vapor deposition growth method; device-compatible substrate; graphene-field effect transistors; large scale device applications; modified RCA clean transfer; monolayer graphene; single-walled carbon nanotube channel; Educational institutions; Films; Integrated circuit interconnections; Metals; Performance evaluation; Substrates; USA Councils;
Conference_Titel :
Semiconductor Device Research Symposium (ISDRS), 2011 International
Conference_Location :
College Park, MD
Print_ISBN :
978-1-4577-1755-0
DOI :
10.1109/ISDRS.2011.6135285
