Simona Achilli scite author profile

We report the incorporation of substitutional Mn atoms in high-quality, epitaxial 1 graphene on Cu(111), using ultra-low energy ion implantation. We characterize in detail the atomic structure of substitutional Mn in a single carbon vacancy and quantify its concentration. In particular, we are able to determine the position of substitutional Mn atoms with respect to the Moiré superstructure (i.e. local graphene-Cu stacking symmetry) and to the carbon sublattice; in the out-of-plane direction, substitutional Mn atoms are found to be slightly displaced towards the Cu surface, i.e. effectively underneath the graphene layer. Regarding electronic properties, we show that graphene doped with substitutional Mn to a concentration of the order of 0.04%, with negligible structural disorder (other than the Mn substitution), retains the Dirac-like band structure of pristine graphene on Cu(111), making it an ideal system in which to study the interplay between local magnetic moments and Dirac electrons. Our work also establishes that ultra-low energy ion implantation is suited for substitutional magnetic doping of graphene; given the flexibility, reproducibility and scalability inherent to ion implantation, our work creates numerous opportunities for research on magnetic functionalization of graphene and other 2D materials.

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Scanning tunneling microscopy and Raman spectroscopy of polymeric sp–sp² carbon atomic wires synthesized on the Au(111) surface

Rabia

Tumino

Milani

et al. 2019

Nanoscale

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Experimental Realization of a Topological p–n Junction by Intrinsic Defect Grading

Bathon

Achilli²,

Sessi

et al. 2016

Advanced Materials

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Sticking of atomic hydrogen on graphene

Bonfanti¹,

Achilli²,

Martinazzo³

2018

J. Phys.: Condens. Matter

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Recent years have witnessed an ever growing interest in the interactions between hydrogen atoms and a graphene sheet. Largely motivated by the possibility of modulating the electric, optical and magnetic properties of graphene, a huge number of studies have appeared recently that added to and enlarged earlier investigations on graphite and other carbon materials. In this review we give a glimpse of the many facets of this adsorption process, as they emerged from these studies. The focus is on those issues that have been addressed in detail, under carefully controlled conditions, with an emphasis on the interplay between the adatom structures, their formation dynamics and the electric, magnetic and chemical properties of the carbon sheet.

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Simona Achilli

Doping Graphene with Substitutional Mn

Scanning tunneling microscopy and Raman spectroscopy of polymeric sp–sp² carbon atomic wires synthesized on the Au(111) surface

Experimental Realization of a Topological p–n Junction by Intrinsic Defect Grading

Sticking of atomic hydrogen on graphene

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Simona Achilli

Doping Graphene with Substitutional Mn

Scanning tunneling microscopy and Raman spectroscopy of polymeric sp–sp2 carbon atomic wires synthesized on the Au(111) surface

Experimental Realization of a Topological p–n Junction by Intrinsic Defect Grading

Sticking of atomic hydrogen on graphene

Contact Info

Product

Resources

About

Scanning tunneling microscopy and Raman spectroscopy of polymeric sp–sp² carbon atomic wires synthesized on the Au(111) surface