The adoption of graphene in electronics, optoelectronics, and photonics is hindered by the difficulty in obtaining high-quality material on technologically relevant substrates, over wafer-scale sizes, and with metal contamination levels compatible with industrial requirements. To date, the direct growth of graphene on insulating substrates has proved to be challenging, usually requiring metal-catalysts or yielding defective graphene. In this work, a metal-free approach implemented in commercially available reactors to obtain high-quality monolayer graphene on c-plane sapphire substrates via chemical vapor deposition is demonstrated. Low energy electron diffraction, low energy electron microscopy, and scanning tunneling microscopy measurements identify the Al-rich reconstruction (√31 × √31)R±9° of sapphire to be crucial for obtaining epitaxial graphene. Raman spectroscopy and electrical transport measurements reveal high-quality graphene with mobilities consistently above 2000 cm2 V−1 s−1. The process is scaled up to 4 and 6 in. wafers sizes and metal contamination levels are retrieved to be within the limits for back-end-of-line integration. The growth process introduced here establishes a method for the synthesis of wafer-scale graphene films on a technologically viable basis.

Wafer-Scale Synthesis of Graphene on Sapphire: Toward Fab-Compatible Graphene / Mishra, N.; Forti, S.; Fabbri, F.; Martini, L.; Mcaleese, C.; Conran, B. R.; Whelan, P. R.; Shivayogimath, A.; Jessen, B. S.; Buss, L.; Falta, J.; Aliaj, I.; Roddaro, S.; Flege, J. I.; Boggild, P.; Teo, K. B. K.; Coletti, C.. - In: SMALL. - ISSN 1613-6810. - 15:50(2019), pp. N/A-N/A. [10.1002/smll.201904906]

Wafer-Scale Synthesis of Graphene on Sapphire: Toward Fab-Compatible Graphene

Martini L.;
2019

Abstract

The adoption of graphene in electronics, optoelectronics, and photonics is hindered by the difficulty in obtaining high-quality material on technologically relevant substrates, over wafer-scale sizes, and with metal contamination levels compatible with industrial requirements. To date, the direct growth of graphene on insulating substrates has proved to be challenging, usually requiring metal-catalysts or yielding defective graphene. In this work, a metal-free approach implemented in commercially available reactors to obtain high-quality monolayer graphene on c-plane sapphire substrates via chemical vapor deposition is demonstrated. Low energy electron diffraction, low energy electron microscopy, and scanning tunneling microscopy measurements identify the Al-rich reconstruction (√31 × √31)R±9° of sapphire to be crucial for obtaining epitaxial graphene. Raman spectroscopy and electrical transport measurements reveal high-quality graphene with mobilities consistently above 2000 cm2 V−1 s−1. The process is scaled up to 4 and 6 in. wafers sizes and metal contamination levels are retrieved to be within the limits for back-end-of-line integration. The growth process introduced here establishes a method for the synthesis of wafer-scale graphene films on a technologically viable basis.
2019
15
50
N/A
N/A
Wafer-Scale Synthesis of Graphene on Sapphire: Toward Fab-Compatible Graphene / Mishra, N.; Forti, S.; Fabbri, F.; Martini, L.; Mcaleese, C.; Conran, B. R.; Whelan, P. R.; Shivayogimath, A.; Jessen, B. S.; Buss, L.; Falta, J.; Aliaj, I.; Roddaro, S.; Flege, J. I.; Boggild, P.; Teo, K. B. K.; Coletti, C.. - In: SMALL. - ISSN 1613-6810. - 15:50(2019), pp. N/A-N/A. [10.1002/smll.201904906]
Mishra, N.; Forti, S.; Fabbri, F.; Martini, L.; Mcaleese, C.; Conran, B. R.; Whelan, P. R.; Shivayogimath, A.; Jessen, B. S.; Buss, L.; Falta, J.; Ali...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11380/1307469
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