Axel Enders
Cited by
Cited by
Large-scale solution synthesis of narrow graphene nanoribbons
TH Vo, M Shekhirev, DA Kunkel, MD Morton, E Berglund, L Kong, ...
Nature communications 5 (1), 3189, 2014
Molecular adsorption on graphene
L Kong, A Enders, TS Rahman, PA Dowben
Journal of Physics: Condensed Matter 26 (44), 443001, 2014
Growth, structure, electronic, and magnetic properties of MgO/Fe (001) bilayers and Fe/MgO/Fe (001) trilayers
M Klaua, D Ullmann, J Barthel, W Wulfhekel, J Kirschner, R Urban, ...
Physical Review B 64 (13), 134411, 2001
Film stress and domain wall pinning in sesquilayer iron films on W (110)
D Sander, R Skomski, C Schmidthals, A Enders, J Kirschner
Physical review letters 77 (12), 2566, 1996
Graphene-like boron–carbon–nitrogen monolayers
S Beniwal, J Hooper, DP Miller, PS Costa, G Chen, SY Liu, PA Dowben, ...
ACS nano 11 (3), 2486-2493, 2017
Bottom-up solution synthesis of narrow nitrogen-doped graphene nanoribbons
TH Vo, M Shekhirev, DA Kunkel, F Orange, MJF Guinel, A Enders, ...
Chemical communications 50 (32), 4172-4174, 2014
Self-assembly and properties of nonmetalated tetraphenyl-porphyrin on metal substrates
G Rojas, X Chen, C Bravo, JH Kim, JS Kim, J Xiao, PA Dowben, Y Gao, ...
The Journal of Physical Chemistry C 114 (20), 9408-9415, 2010
Nitrogen-doping induced self-assembly of graphene nanoribbon-based two-dimensional and three-dimensional metamaterials
TH Vo, UGE Perera, M Shekhirev, M Mehdi Pour, DA Kunkel, H Lu, ...
Nano Letters 15 (9), 5770-5777, 2015
A 10 mK scanning tunneling microscope operating in ultra high vacuum and high magnetic fields
M Assig, M Etzkorn, A Enders, W Stiepany, CR Ast, K Kern
Review of Scientific Instruments 84 (3), 2013
Stress and magnetic properties of surfaces and ultrathin films
D Sander, A Enders, J Kirschner
Journal of magnetism and magnetic materials 200 (1-3), 439-455, 1999
Magnetic surface nanostructures
A Enders, R Skomski, J Honolka
Journal of Physics: Condensed Matter 22 (43), 433001, 2010
Surface-induced spin state locking of the [Fe (H2B (pz) 2) 2 (bipy)] spin crossover complex
S Beniwal, X Zhang, S Mu, A Naim, P Rosa, G Chastanet, JF Létard, J Liu, ...
Journal of Physics: Condensed Matter 28 (20), 206002, 2016
Stress and structure of Ni monolayers on W (110): the importance of lattice mismatch
D Sander, C Schmidthals, A Enders, J Kirschner
Physical Review B 57 (3), 1406, 1998
A simple technique to measure stress in ultrathin films during growth
D Sander, A Enders, J Kirschner
Review of Scientific Instruments 66 (9), 4734-4735, 1995
Surface state engineering of molecule–molecule interactions
G Rojas, S Simpson, X Chen, DA Kunkel, J Nitz, J Xiao, PA Dowben, ...
Physical Chemistry Chemical Physics 14 (14), 4971-4976, 2012
Electronic decoupling and templating of Co nanocluster arrays on the boron nitride nanomesh
I Brihuega, CH Michaelis, J Zhang, S Bose, V Sessi, J Honolka, ...
Surface Science 602 (14), L95-L99, 2008
Locking and unlocking the molecular spin crossover transition
X Zhang, PS Costa, J Hooper, DP Miller, AT N'Diaye, S Beniwal, X Jiang, ...
Advanced Materials 29 (39), 1702257, 2017
The correlation between mechanical stress and magnetic properties of ultrathin films
D Sander, R Skomski, A Enders, C Schmidthals, D Reuter, J Kirschner
Journal of Physics D: Applied Physics 31 (6), 663, 1998
Structural transition in clusters
W Branz, N Malinowski, A Enders, TP Martin
Physical Review B 66 (9), 094107, 2002
Magnetism of FePt surface alloys
J Honolka, TY Lee, K Kuhnke, A Enders, R Skomski, S Bornemann, ...
Physical review letters 102 (6), 067207, 2009
The system can't perform the operation now. Try again later.
Articles 1–20