Lorenz Hagelüken
EPFL STI IMT LMIS1
BM 3109 (Bâtiment BM)
Station 17
CH-1015 Lausanne
Web site: Web site: https://lmis1.epfl.ch/
Fields of expertise
Polymer-Derived Ceramics, Microfabrication, Additive Manufacturing, Two-Photon Polymerization, Bio-MEMS
Current work
I am researching on polymer-derived ceramics for MEMS and biomedical implant applications. This includes the tuning of the materials' mechanical and functional properties as well as combining various microfabrication techniques such as photolithography or two photon polymerization to achieve parts with micrometer precision and complex shapes.
Professional course
Research Assistant
Prof. M. Hoffman
UNSW Sydney, Australia
2016
Teaching Assistant
Materials Science Department
TU Darmstadt, Germany
2014 - 2016
Education
Doctoral Assistant
LMIS1
EPFL
2017 - present
M.Sc.
Materials Science
TU Darmstadt
2016
Semester abroad
Materials Science and Engineering
University of Wisconsin - Milwaukee
2015
B.Sc.
Materials Science
TU Darmstadt
2014
Publications
Infoscience publications
Electrochemical performance of polymer-derived SiOC and SiTiOC ceramic electrodes for artificial cardiac pacemaker applications
Ceramics International. 2020-11-19. DOI : 10.1016/j.ceramint.2020.11.098.Cracks, porosity and microstructure of Ti modified polymer-derived SiOC revealed by absorption-, XRD- and XRF-contrast 2D and 3D imaging
Acta Materialia. 2020-08-01. DOI : 10.1016/j.actamat.2020.07.067.Additive micro-manufacturing of crack-free PDCs by two-photon polymerization of a single, low-shrinkage preceramic resin
Additive Manufacturing. 2020-05-26. DOI : 10.1016/j.addma.2020.101343.Selected publications
| F. Muench, S. Schaefer, L. Hagelüken, L. Molina-Luna, M. Duerrschnabel, H.-J. Kleebe, J. Brötz, A. Vaskevich, I. Rubinstein, and W. Ensinger |
Template-Free Electroless Plating of Gold Nanowires: Direct Surface Functionalization with Shape-Selective Nanostructures for Electrochemical Applications |