H. Hofsäß scite author profile

Doping of graphene via low energy ion implantation could open possibilities for fabrication of nanometer-scale patterned graphene-based devices as well as for graphene functionalization compatible with large-scale integrated semiconductor technology. Using advanced electron microscopy/spectroscopy methods, we show for the first time directly that graphene can be doped with B and N via ion implantation and that the retention is in good agreement with predictions from calculation-based literature values. Atomic resolution high-angle dark field imaging (HAADF) combined with single-atom electron energy loss (EEL) spectroscopy reveals that for sufficiently low implantation energies ions are predominantly substitutionally incorporated into the graphene lattice with a very small fraction residing in defect-related sites.

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Emission channeling and blocking

Hofsäß

1991

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Surfactant-driven self-organized surface patterns by ion beam erosion

Zhang

Brötzmann

Hofsäß³

2011

New J. Phys.

112

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Single-atom spectroscopy of phosphorus dopants implanted into graphene

et al. 2017

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One of the keys behind the success of the modern semiconductor technology has been the ion implantation of silicon, which allows its electronic properties to be tailored. For similar purposes, heteroatoms have been introduced into carbon nanomaterials both during growth and using post-growth methods. However, due to the nature of the samples, it has been challenging to determine whether the heteroatoms have been incorporated into the lattice as intended, with direct observations so far being limited

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H. Hofsäß

Carbon nitride deposited using energetic species: A review on XPS studies

Ion Implantation of Graphene—Toward IC Compatible Technologies

Emission channeling and blocking

Surfactant-driven self-organized surface patterns by ion beam erosion

Single-atom spectroscopy of phosphorus dopants implanted into graphene

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