Institut

bitte auswählen

Claus J. Burkhardt
Dr. Claus J. Burkhardt
Diplom-Physiker
Mikrosystem-/Nanotechnik
Tel.: 07121 51530-55
Fax: 07121 51530-62

Arbeitsgebiete
Nanotechnologie, Nanolithografie mit Elektronen- und Ionenstrahlen, Elektronenstrahl- und ionenstrahlinduzierte Materialabscheidung (Additive Nanolithografie), Elektronenmikroskopie, Entwicklung von Präparationsmethoden, Dünnschichttechik, Mikrosystemtechnik

Werdegang mit den wichtigsten Stationen
2008 - heute    Gruppenleiter
1998 – 2007    Wissenschaftlicher Angestellter am NMI, Projektleiter
1995 - 1997    Wissenschaftlicher Mitarbeiter am Hörforschungszentrum Tübingen
1997    Promotion an der Universität Tübingen
1986 - 1992    Wissenschaftlicher Mitarbeiter, Doktorand, Universität Tübingen, Institut für Angewandte Physik
1979 - 1986    Physik-Studium, Universität Tübingen

Publikationen

Neuhaus, J., Schroppel, B., Dass, M., Zimmermann, H., Wolburg, H., Fallier-Becker, P., Gevaert, T., Burkhardt, C. J., Do, H. M., Stolzenburg, J. U. (2017).
3D-electron microscopic characterization of interstitial cells in the human bladder upper lamina propria
Neurourol Urodyn. 2017 Mar 31. doi: 10.1002/nau.23270.

Fuchsberger, K., Binder, K., Burkhardt, C., Freudigmann, Ch., Herrmann, M., Stelzle, M. (2016).
Electrochemical etching of micro-pores in medical grade cobalt–chromium alloy as reservoirs for drug eluting stents
Journal of Materials Science: Materials in Medicine 27(3): 1-9.

Schmid, G., Zeitvogel, F., Hao, L., Ingino, P., Floetenmeyer, M., Stierhof, Y. D., Schroeppel, B., Burkhardt, C. J., Kappler, A., Obst, M. (2014).
3-D analysis of bacterial cell-(iron)mineral aggregates formed during Fe(II) oxidation by the nitrate-reducing Acidovorax sp. strain BoFeN1 using complementary microscopy tomography approaches
Geobiology. 2014 May 14. doi: 10.1111/gbi.12088.

Joens, M. S., Huynh, C., Kasuboski, J. M., Ferranti, D., Sigal, Y. J., Zeitvogel, F., Obst, M., Burkhardt, C. J., Curran, K. P., Chalasani, S. H., Stern, L. A., Goetze, B., Fitzpatrick, J. A. (2013).
Helium Ion Microscopy (HIM) for the imaging of biological samples at sub-nanometer resolution
Sci Rep. 2013 Dec 17;3:3514. doi: 10.1038/srep03514.

Schroeppel, B., Nisch, W., Stett, A., Burkhardt, C. (2013).
Analytische Elektronenmikroskopie an Implantatoberflächen und biologisch-technischen Grenzflächen
WOMag 05/2013: 17 - 21.

Stamm, B., Schneider, K., Herrmann, T., Burkhardt, C., Nisch, W., Fleischer, M., Kern, D. P., Stett, A. (2012).
CVD-Synthese von Kohlenstoff-Nanoröhren zur Nutzung als Mikroelektroden für neuronale Anwendungen
WOMag, 11/2012, Seite 14 - 17.

Häffner M., Schneider K., Schuster B.-E, Stamm B., Latteyer F., Fleischer, M., Burkhardt, C., Chassé T., Stett A., Kern D.P. (2010)
Plasma enhanced chemical vapor deposition grown carbon nanotubes from ferritin catalyst for neural stimulation microelectrodes
Microelectronic Engineering, 87(5-8):734-737

Schneider, K., Stamm, B., Gutohrlein, K., Fleischer, M., Burkhardt, C., Stett, A., Kern, D. (2012)
Carbon nanotubes grown on polyimide by chemical vapour deposition
Nanotechnology (IEEE-NANO), 2012 12th IEEE Conference on.

Röhler, S., Held, J., Nisch, W., Kern, D. P., Burkhardt, C., Stett, A. (2012)
Development and characterization of a needle-type microelectrode array for stimulation and recording of neuronal activity
Microelectronic Engineering 98(0): 453-457. In Press.

Kubon, M., Moschallski, M., Link, G.S., Werner, S., Burkhardt, C., Nisch, W., Scholz, B., Schlosshauer, B., Urban, G., Stelzle, M. (2010)
Ex ovo culture: An in vivo model for microsensorarray implants
7th International Meeting on Substrate-Integrated Microelectrode Arrays Reutlingen, NMI, BioPro.

von Hauff E., Fuchs K., Hellmann D. Ch., Parisi J., Weiler R., Burkhardt C., Kraushaar U., Guenther E. (2010)
Biocompatible molecularly imprinted polymers for the voltage regulated uptake and release of l-glutamate in neutral pH solutions
Biosens Bioelectron. 2010 Oct 15;26(2):596-601. Epub 2010 Jul 16.

Burkhardt, C., Fuchsberger, K., Nisch, W., Stelzle, M. (2010)
Micro- and Nanopatterning of Surfaces Employing Self Assembly of Nanoparticles and Its Application in Biotechnology and Biomedical Engineering
Lithography. M. Wang. Wien, IN-TECH: 629-644.

Bittermann, A. G., Burkhardt, C., Hall, H. (2009)
Imaging of Cell-to-Material Interfaces by SEM after in situ Focused Ion Beam Milling on Flat Surfaces and Complex 3D-Fibrous Structures
Advanced Engineering Materials, Vol. 11, Issue 11, p. B182-B188.

Bauerdick, S., Burkhardt, C., Rudorf, R., Barth, W., Bucher, V., Nisch, W. (2003)
In-situ monitoring of electron beam induced deposition by atomic force microscopy in a scanning electron microscope.
Microelectronic Engineering 67-68, 963-969.

Bauerdick, S., Burkhardt, C., Kern, D.P., Nisch, W. (2004)
Addressable field emitter array: A tool for designing field emitters and a multibeam electron source.
J. Vac. Sci. Technol. B 22, 3539-3542.

Stett, A., Bucher, V., Burkhardt, C., Weber, U., Nisch, W. (2003)
Patch-clamping of primary cardiac cells with micro-openings in polyimide films.
Med Biol Eng Comput. 2003 Mar;41(2):233-40.

Stett, A., Burkhardt, C., Weber, U., van Stiphout, P., Knott, T. (2003)
CYTOCENTERING: a novel technique enabling automated cell-by-cell patch clamping with the CYTOPATCH chip.
Receptors Channels. 2003;9(1):59-66.

Croitoru, M.D., Bertsche, G., Kern, D.P., Burkhardt, C., Bauerdick, S., Sahakalkan, S., Roth, S. (2005)
Visualization and in situ contacting of carbon nanotubes in a scanning electron microscope.
J. Vac. Sci. Technol. B 23 (6), page 2789-2792.

Heeren, A., Burkhardt, C., Wolburg, H., Henschel, W., Nisch, W., Kern, D.P. (2006)
Preparation of nanostructured Titanium surfaces for investigations of the interface between cell monolayers and Titanium.
Microelectronic Engineering No.83, p. 1602-1604

zurück