Rapid direct growth of graphene on single-crystalline diamond using nickel as catalyst

TL;DR

This study demonstrates a rapid, low-temperature process for directly growing graphene on single-crystalline diamond using nickel as a catalyst, achieving partial monolayer coverage in just one minute.

Contribution

It introduces a fast thermal method for graphene growth on diamond with reduced temperature and duration, expanding potential for diamond-graphene integration.

Findings

Achieved around 20% monolayer graphene coverage

Used Raman spectroscopy, XPS, and AFM for characterization

Conducted Hall-effect measurements across 80-360 K

Abstract

Although theoretical investigations indicate that the successful combination of graphene and diamond would give interesting properties, only a limited number of reports dealing with the subject have been published. Here, we present a rapid thermal process (RTP) which involves Ni as metal catalyst for a direct growth of graphene on diamond at a temperature of 800 $^{\circ}$C for 1 min. This process operates with a combination of a lower temperature and for a shorter duration than what has previously been reported. Thin Ni films with different thicknesses were deposited on top of (100) single crystalline diamond. After RTP, the coverage of monolayer graphene was found to be around 20% shown by the intensity ratio between the 2D- and G peak using Raman spectroscopy on 50-nm thick Ni films. In addition, x-ray photoelectron spectroscopy and atomic force microscopy analysis were conducted for additional investigation. For electrical characterization, Hall-effect measurements were performed at temperatures between 80 and 360 K.