Journal Papers and Preprints
2010
[ ] Imaging Localized States in Graphene Nanostructures; S. Schnez, J. Güttinger, M. Huefner, C. Stampfer, K. Ensslin, T. Ihn ,
arXiv:1005.2024
(2010).
[ ] Spin States in Graphene Quantum Dots;
J. Güttinger, T. Frey, C. Stampfer, T. Ihn, and K. Ensslin,
Phys. Rev. Lett. 105 116801 (2010).
[ ] Transition to Landau Levels in Graphene Quantum Dots; F. Libisch, S. Rotter, J. Güttinger, C. Stampfer, and J. Burgdörfer,
Phys. Rev. B 81 245411 (2010).
[ ] Selective Chemical Modification of Graphene surfaces: Distinction between Single and Bilayer Graphene; F. M. Koehler, A. Jacobsen, K. Ensslin, C. Stampfer, and W. J. Stark,
Small 6 1125 (2010).
[ ] Quantum capacitance and density of states of graphene; S. Dröscher, P. Roulleau, F. Molitor, P. Studerus, C. Stampfer, T. Ihn, and K. Ensslin,
Appl. Phys. Lett. 96 152104 (2010).
[ ] Asymmetric Franck-Condon factors in suspended carbon nanotube quantum dots; F. Cavaliere, E. Mariani, R. Leturcq, C. Stampfer, and M. Sassetti,
Phys. Rev. B 81 201303(R) (2010).
[ ] The Aharonov-Bohm effect in a side-gated graphene ring;
M. Huefner*, F. Molitor*, A. Jacobsen, A. Pioda, C. Stampfer, K. Ensslin, and T. Ihn,
New Journal of Physics 12 043054 (2010).
[ ] Observation of excited states in a graphene double quantum dot; F. Molitor, H. Knowles, S. Dröscher, U. Gasser, T. Choi, P. Roulleau, J. Güttinger, A. Jacobsen, C. Stampfer, K. Ensslin, and T. Ihn, Europhys. Lett. 89 67005 (2010).
[ ] Graphene single-electron transistors;
T. Ihn, J. Güttinger, F. Molitor, S. Schnez, E. Schurtenberger, A. Jacobsen, S. Hellmüller, T. Frey, S. Dröscher, C. Stampfer, and K. Ensslin,
Materials Today 13 44 (2010).
[ ] Transport through open quantum dots: making semiclassics quantitative; I. Brezinova, L. Wirtz, S. Rotter, C. Stampfer, and J. Burgdörfer,
Phys. Rev. B 81 125308 (2010).
[ ] Energy and transport gaps in etched
graphene nanoribbons;
F. Molitor, C. Stampfer, J. Güttinger, A. Jacobsen, T. Ihn, and K. Ensslin,
Semicond. Sci. Technol. 25 034002 (2010).
2009
[ ] Graphene quantum dots in perpendicular magnetic fields;
J. Güttinger, C. Stampfer, T. Frey, T. Ihn, and K. Ensslin,
Physica Status Solidi B 246 2553-2557 (2009).
[ ] Investigation of the Aharonov-Bohm effect in a gated graphene ring;
M. Huefner*, F. Molitor*, A. Jacobsen, A. Pioda, C. Stampfer, K. Ensslin, and T. Ihn,
Physica Status Solidi B 246 2756-2759 (2009).
[ ] Electron-Hole Crossover in Graphene Quantum Dots;
J. Güttinger, C. Stampfer, F. Libisch, T. Frey, J. Burgdörfer, T. Ihn, and K. Ensslin,
Phys. Rev. Lett. 103 046810 (2009).
[ ] Transparency of narrow constrictions in a graphene single electron transistor;
C. Stampfer, E. Schurtenberger, F. Molitor, J. Güttinger, T. Ihn, and K. Ensslin,
Int. J. Mod. Phys. B 23 2647 (2009).
[ ] Transport through graphene double dots;
F. Molitor, S. Dröscher, J. Güttinger, A. Jacobsen, C. Stampfer, T. Ihn, and K. Ensslin,
Appl. Phys. Lett. 94 222107 (2009).
[ ] Franck-Condon blockade in suspended carbon nanotube quantum dots;
R. Leturcq*, C. Stampfer*, K. Inderbitzin, L. Durrer, C. Hierold, E. Mariani, M. G. Schultz, F. von Oppen, and K. Ensslin,
Nature Physics 5 327 (2009). Supplementary information (pdf)
[ ] Graphene quantum dots: Beyond a Dirac billiard;
F. Libisch, C. Stampfer, and J. Burgdörfer, Phys. Rev. B 79 115423 (2009).
[ ] Transport gap in side-gated graphene constrictions;
F. Molitor, A. Jacobsen, C. Stampfer, J. Güttinger, T. Ihn, and K. Ensslin,
Phys. Rev. B 79 075426 (2009).
[ ] Energy gaps in etched graphene nanoribbons;
C. Stampfer, J. Güttinger, S. Hellmüller, F. Molitor, K. Ensslin, and T. Ihn,
Phys. Rev. Lett. 102 056403 (2009).
[ ] Observation of excited states in a graphene quantum dot;
S. Schnez, F. Molitor, C. Stampfer, J. Güttinger, I. Shorubalko, T. Ihn, and K. Ensslin,
Appl. Phys. Lett. 94 012107 (2009).
2008
[ ] Coulomb oscillations in three
layer graphene nanostructures;
J. Güttinger, C. Stampfer, F. Molitor, D. Graf, T. Ihn, and K. Ensslin,
New Journal of Physics 10 125029 (2008).
[ ] Piezoresponse force microscopy on doubly clamped KNbO3 nanowires;
J. Wang, C. Stampfer, C. Roman, W. H. Ma, N. Setter, and C. Hierold, Appl. Phys. Lett. 93 223101 (2008).
[ ] Charge detection in graphene quantum dots;
J. Güttinger, C. Stampfer, S. Hellmüller, F. Molitor, T. Ihn, and K. Ensslin, Appl. Phys. Lett. 93 212102 (2008).
[ ] Tunable graphene
single electron transistor;
C. Stampfer, E. Schurtenberger, F. Molitor, J. Güttinger, T. Ihn, and K. Ensslin, Nano Lett. 8 (8) 23782383 (2008).
[ ] Sensing
NO2 with individual suspended single-walled carbon nanotubes;
T. Helbling, R. Pohle, L. Durrer, C. Stampfer, C. Roman, M. Fleischer, and C. Hierold, Sensors and Actuators B: Chemical 132 491497 (2008).
[ ] SWNT growth by LPCVD
on ferritin-based iron catalyst nanoparticles towards CNT sensors;
L. Durrer, T. Helbling, C. Zenger, A. Jungen, C. Stampfer, and C. Hierold, Sensors and Actuators B: Chemical 132 485490 (2008).
[ ] Phase-coherent transport in a mesoscopic
few-layer graphite wire;
T. Ihn, D. Graf, F. Molitor, C. Stampfer, and K. Ensslin, Physica E 40 1851-1854 (2008).
[ ] Diffractive paths for weak localization
in quantum billiards;
I. Brezinova, C. Stampfer, L. Wirtz, S. Rotter, and J. Burgdörfer, Phys. Rev. B 77 165321 (2008).
[ ] Tunable Coulomb blockade in
nanostructured graphene;
C. Stampfer, J. Güttinger, F. Molitor, D. Graf, T. Ihn, and K. Ensslin, Appl. Phys. Lett. 92 012102 (2008).
2007
[ ] Local gating of a graphene Hall
bar by graphene side gates;
F. Molitor, J. Güttinger, C. Stampfer, D. Graf, T. Ihn, and K. Ensslin, Phys. Rev. B 76 245426 (2007).
[ ] Raman imaging of
doping domains in graphene on SiO2;
C. Stampfer, L. Wirtz, A. Jungen, D. Graf, F. Molitor, C. Hierold, and K. Ensslin, Appl. Phys. Lett. 91 241907-3 (2007).
[ ] Flying and Crawling Modes during Surface-Bound Single Wall Carbon Nanotube Growth;
S. Pisana, A. Jungen, C. Zhang, A. M. Blackburn, R. Sharma, F. Cervantes-Sodi, C. Stampfer, C. Ducati, A. C. Ferrari, C. Hierold, J. Robertson, and S. Hofmann,
Journal of Physical Chemistry C 111 17249-17253 (2007).
[ ] Raman mapping of a single-layer to double-layer graphene transition;
D. Graf, F. Molitor, K. Ensslin, C. Stampfer, A. Jungen, C. Hierold and L. Wirtz,
European Physical Journal-Special Topics 148 171-176 (2007).
[ ] Electron Shuttle Instability
for Nano Electromechanical Mass Sensing;
C. Stampfer, J. Güttinger, C. Roman, A. Jungen, T. Helbling, and C. Hierold, Nano Lett. 7 (9) 2747-2752 (2007).
[ ] Raman imaging for processing and process monitoring for nanotube devices;
C. Stampfer, A. Bürli, A. Jungen, and C. Hierold, Physica Status Solidi B 244 (11) 4341-4345 (2007).
[ ] Progress in carbon nanotube based
nanoelectromechanical systems synthesis;
A. Jungen, L. Durrer, C. Stampfer, C. Roman, and C. Hierold, Physica Status Solidi B 244 (11) 4323-4326 (2007).
[ ] Nano Electromechanical Sensors based on
Carbon Nanotubes;
C. Hierold, A. Jungen, C. Stampfer, and T. Helbling, Sensors and Actuators A: Physical 136 51-61, (2007) .
[ ] Raman Imaging of
Graphene;
D. Graf, F. Molitor, K. Ensslin, C. Stampfer, A. Jungen, C. Hierold and L. Wirtz, Solid State Communication 143 (1-2) 44-46 (2007).
[ ] Synthesis of
single-walled carbon nanotube bridges controlled by support micromachining;
A. Jungen, S. Hofmann, J. Meyer, C. Stampfer, S. Roth, J. Robertson, and C. Hierold, Journal of Micromechanics and Microengineering 17 603-608 (2007).
[ ] Spatially Resolved
Raman Spectroscopy of Single- and Few-Layer Graphene;
D. Graf, F. Molitor, K. Ensslin, C. Stampfer, A. Jungen, C. Hierold and L. Wirtz, Nano Lett. 7 (2) 238-242 (2007).
[ ] Raman intensity mapping of single-walled carbon nanotubes;
A. Jungen, V. N. Popov, C. Stampfer, L. Durrer, S. Stoll, and C. Hierold, Phys. Rev. B 75 041405(R) (2007).
[ ] Amorphous carbon contamination monitoring and process optimization for single-walled carbon nanotube integration;
A. Jungen, C. Stampfer, L. Durrer, T. Helbling, and C. Hierold, Nanotechnology 18 075603 (2007).
2006
[ ] Direct wiring of carbon nanotubes for integration in nanoelectromechanical systems;
S. Bauerdick, C. Stampfer, T. Helbling, A. Linden, and C. Hierold, Journal of Vacuum Science and Technology B 24 3144-3147 (2006).
[ ] Electrothermal effects at the microscale and their consequences on system design;
A. Jungen, M. Pfenninger, M. Tonteling, C. Stampfer, and C. Hierold, Journal of Micromechanics and Microengineering 16 1633-1638 (2006).
[ ] Nano-electromechanical displacement sensing based on single-walled carbon nanotubes;
C. Stampfer, A. Jungen, R. Linderman, D. Obergfell, S. Roth, and C. Hierold, Nano Lett.
6 (7) 1449-1453 (2006).
[ ] Micromachined pressure sensors for electromechanical characterization of carbon nanotubes;
C. Stampfer, T. Helbling, A. Jungen, and C. Hierold, Physica Status Solidi B 243 3537-3541 (2006).
[ ] A method for enhanced analysis of specific as-grown carbon nanotubes;
A. Jungen, C. Stampfer, L. Durrer, T. Helbling, and C. Hierold, Physica Status Solidi B 243 3138-3141 (2006).
[ ] Thermography on a suspended microbridge using confocal Raman scattering;
A. Jungen, C. Stampfer and C. Hierold, Appl. Phys. Lett. 88 191901 (2006).
[ ] Fabrication of single-walled carbon nanotube based pressure sensors;
C. Stampfer, T. Helbling, D. Obergfell, B. Schöberle, M. K. Tripp,
A. Jungen, S. Roth, V. M. Bright and C. Hierold, Nano Lett.
6 (2) 233-237 (2006).
[ ] Comment on Dynamic range of nanotube- and nanowire-based electromechanical
systems [APL 86, 223105 (2005)];
C. Stampfer, S. Rotter, and J. Burgdörfer,
Appl. Phys. Lett. 88 036101 (2006).
[ ] Fabrication of Discrete Nano-Scaled Force Sensors Based on Single Walled Carbon Nanotubes;
C. Stampfer, A. Jungen and C. Hierold, IEEE Sensors Journal 6 (3) 613-627 (2006).
[ ] The mechanical properties of atomic layer deposited alumina for use in micro- and nano-electromechanical systems;
M. K. Tripp, C. Stampfer, D. C. Miller, T. Helbling, C. F. Herrmann,
C. Hierold, K. Gall, S. M. George and V. M. Bright, Sensors and Actuators: A Physical 130-131 419-429 (2006).
[ ] Process integration of carbon nanotubes into microelectromechanical systems;
A. Jungen, C. Stampfer, J. Hoetzel, V. Bright and C. Hierold,
Sensors and Actuators: A Physical 130-131 588-594 (2006).
2005 --
[ ] Pseudo-path semiclassical approximation to transport through open quantum billiards:
Dyson equation for diffractive scattering;
C. Stampfer, L. Wirtz, S. Rotter, and J. Burgdörfer, Phys.
Rev. E
72 036223 (2005).
[ ] Semiclassical theory for transmission through
open billiards: Convergence towards quantum transport;
L. Wirtz, C. Stampfer, S. Rotter, and J. Burgdörfer,
Phys.
Rev. E
67 016206 (2003).
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