Johannes Aprojanz
Johannes Aprojanz
ACTEGA Metal Print GmbH
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Comeback of epitaxial graphene for electronics: large-area growth of bilayer-free graphene on SiC
M Kruskopf, DM Pakdehi, K Pierz, S Wundrack, R Stosch, T Dziomba, ...
2D Materials 3 (4), 041002, 2016
Metallic Twin Grain Boundaries Embedded in MoSe2 Monolayers Grown by Molecular Beam Epitaxy
Y Ma, S Kolekar, H Coy Diaz, J Aprojanz, I Miccoli, C Tegenkamp, ...
ACS nano 11 (5), 5130-5139, 2017
Minimum resistance anisotropy of epitaxial graphene on SiC
D Momeni Pakdehi, J Aprojanz, A Sinterhauf, K Pierz, M Kruskopf, ...
ACS applied materials & interfaces 10 (6), 6039-6045, 2018
Ballistic tracks in graphene nanoribbons
J Aprojanz, SR Power, P Bampoulis, S Roche, AP Jauho, HJW Zandvliet, ...
Nature communications 9 (1), 1-6, 2018
One-dimensional confinement and width-dependent bandgap formation in epitaxial graphene nanoribbons
H Karakachian, TTN Nguyen, J Aprojanz, AA Zakharov, R Yakimova, ...
Nature communications 11 (1), 6380, 2020
Growth and characterization of sidewall graphene nanoribbons
J Baringhaus, J Aprojanz, J Wiegand, D Laube, M Halbauer, J Hübner, ...
Applied Physics Letters 106 (4), 2015
Electron interference in ballistic graphene nanoconstrictions
J Baringhaus, M Settnes, J Aprojanz, SR Power, AP Jauho, C Tegenkamp
Physical Review Letters 116 (18), 186602, 2016
Homogeneous large-area quasi-free-standing monolayer and bilayer graphene on SiC
D Momeni Pakdehi, K Pierz, S Wundrack, J Aprojanz, TTN Nguyen, ...
ACS Applied Nano Materials 2 (2), 844-852, 2019
Firing-Stable PECVD SiOxNy/n-Poly-Si Surface Passivation for Silicon Solar Cells
M Stöhr, J Aprojanz, R Brendel, T Dullweber
ACS Applied Energy Materials 4 (5), 4646-4653, 2021
Wafer scale growth and characterization of edge specific graphene nanoribbons for nanoelectronics
AA Zakharov, NA Vinogradov, J Aprojanz, TTN Nguyen, C Tegenkamp, ...
ACS Applied Nano Materials 2 (1), 156-162, 2018
High-Mobility Epitaxial Graphene on Ge/Si (100) Substrates
J Aprojanz, P Rosenzweig, TTN Nguyen, H Karakachian, K Küster, ...
ACS applied materials & interfaces 12 (38), 43065-43072, 2020
Quasi-free-standing bilayer graphene nanoribbons probed by electronic transport
I Miccoli, J Aprojanz, J Baringhaus, T Lichtenstein, LA Galves, JMJ Lopes, ...
Applied Physics Letters 110 (5), 2017
Topological surface state in epitaxial zigzag graphene nanoribbons
TTN Nguyen, N de Vries, H Karakachian, M Gruschwitz, J Aprojanz, ...
Nano Letters 21 (7), 2876-2882, 2021
Ge2Pt hut clusters: A substrate for germanene
R van Bremen, P Bampoulis, J Aprojanz, M Smithers, B Poelsema, ...
Journal of Applied Physics 124 (12), 2018
Graphene ribbon growth on structured silicon carbide
A Stöhr, J Baringhaus, J Aprojanz, S Link, C Tegenkamp, Y Niu, ...
Annalen der Physik 529 (11), 1700052, 2017
Highly anisotropic electric conductivity in PAN-based carbon nanofibers
J Aprojanz, B Dreyer, M Wehr, J Wiegand, J Baringhaus, J Koch, F Renz, ...
Journal of Physics: Condensed Matter 29 (49), 494002, 2017
Noninvasive coupling of PbPc monolayers to epitaxial graphene on SiC (0001)
TTN Nguyen, J Aprojanz, M Jäger, TNH Nguyen, C Tegenkamp
Surface Science 686, 45-51, 2019
2D Mater. 3, 041002 (2016)
M Kruskopf, DM Pakdehi, K Pierz, S Wundrack, R Stosch, T Dziomba, ...
1D ballistic transport channel probed by invasive and non-invasive contacts
J Aprojanz, I Miccoli, J Baringhaus, C Tegenkamp
Applied Physics Letters 113 (19), 2018
Nanoscale imaging of electric pathways in epitaxial graphene nanoribbons
J Aprojanz, P Bampoulis, AA Zakharov, HJW Zandvliet, C Tegenkamp
Nano Research 12, 1697-1702, 2019
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