Graphite and Graphene Fairy Circles: A Bottom-Up Approach for the Formation of Nanocorrals

A convenient covalent functionalization approach and nanopatterning method of graphite and graphene is developed. In contrast to expectations, electrochemically activated dediazotization of a mixture of two aryl diazonium compounds in aqueous media leads to a spatially inhomogeneous functionalizatio...

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Veröffentlicht in:	ACS NANO 2019-05, Vol.13 (5), p.5559-5571
Hauptverfasser:	Thanh, Hai Phan, Van Gorp, Hans, Li, Zhi, Thi, Mien Trung Huynh, Fujita, Yasuhiko, Verstraete, Lander, Eyley, Samuel, Thielemans, Wim, Uji-i, Hiroshi, Hirsch, Brandon E, Mertens, Stijn F.L, Greenwood, John, Ivasenko, Oleksandr, De Feyter, Steven
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creator	Thanh, Hai Phan Van Gorp, Hans Li, Zhi Thi, Mien Trung Huynh Fujita, Yasuhiko Verstraete, Lander Eyley, Samuel Thielemans, Wim Uji-i, Hiroshi Hirsch, Brandon E Mertens, Stijn F.L Greenwood, John Ivasenko, Oleksandr De Feyter, Steven
description	A convenient covalent functionalization approach and nanopatterning method of graphite and graphene is developed. In contrast to expectations, electrochemically activated dediazotization of a mixture of two aryl diazonium compounds in aqueous media leads to a spatially inhomogeneous functionalization of graphitic surfaces, creating covalently modified surfaces with quasi-uniform spaced islands of pristine graphite or graphene, coined nanocorrals. Cyclic voltammetry and chronoamperometry approaches are compared. The average diameter (45-130 nm) and surface density (20-125 corrals/μm2) of these nanocorrals are tunable. These chemically modified nanostructured graphitic (CMNG) surfaces are characterized by atomic force microscopy, scanning tunneling microscopy, Raman spectroscopy and microscopy, and X-ray photoelectron spectroscopy. Mechanisms leading to the formation of these CMNG surfaces are discussed. The potential of these surfaces to investigate supramolecular self-assembly and on-surface reactions under nanoconfinement conditions is demonstrated.
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title	Graphite and Graphene Fairy Circles: A Bottom-Up Approach for the Formation of Nanocorrals
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