Abstract
AbstractChemical vapor deposition (CVD) has great potential to produce graphene films at large-scale. However, CVD production of graphene films usually requires a catalytic metal substrate, such as copper. Recently we have developed a new method to grow graphene films directly on crystalline silicon wafers with a thermally grown 300 nm oxide layer, using a seeded-CVD growth approach. The use of methane as the feedstock and optimized graphene seeds has led to enhanced film formation, which SEM, X-ray photo-electron and Raman spectroscopies indicate consist of graphene layers formed by the coalescence of expanding “graphene seeds”. The resultant films have regions of single graphene crystallites within them as a result of lateral growth of the seeds. In addition, we have observed that the unilateral conductivity of the graphene films is consistent with the presence of graphene nanoribbons and as such has potential application in device fabrication.
Funder
University of New South Wales
Publisher
Springer Science and Business Media LLC
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science
Reference20 articles.
1. Novoselov K (2004) Electric field effect in atomically thin carbon films. Science 306(5696):666–669
2. Wang M et al (2016) CVD polymers for devices and device fabrication. Adv Mater 29(11):1604606
3. Kalita G, Tanemura M (2017) Fundamentals of chemical vapor deposited graphene and emerging applications. In: Kyzas GZ, Mitropoulos AC (eds) Graphene materials advanced applications. InTech
4. Kim J, Woo J, Jo S, Oh J, Hong W, Lee B, Jung H, Kim J, Roh S, Han C (2020) Clean and less defective transfer of monolayer graphene by floatation in hot water. Appl Surf Sci 508:145057
5. Yan Z, Joshi R, You Y, Poduval G, Stride J (2021) Seeded growth of ultrathin carbon films directly onto silicon substrates. ACS Omega https://doi.org/10.1021/acsomega.0c05770