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Control of the tribological moisture sensitivity of diamond-like carbon films by alloying with F, Ti or Si
Gilmore, R., & Hauert, R. (2001). Control of the tribological moisture sensitivity of diamond-like carbon films by alloying with F, Ti or Si. Thin Solid Films, 398-399, 199-204. https://doi.org/10.1016/S0040-6090(01)01437-7
Nanowires enabling signal-enhanced nanoscale Raman spectroscopy
Becker, M., Sivakov, V., Gösele, U., Stelzner, T., Andrä, G., Reich, H. J., … Christiansen, S. H. (2008). Nanowires enabling signal-enhanced nanoscale Raman spectroscopy. Small, 4(4), 398-404. https://doi.org/10.1002/smll.200701007
Study of the influence of feed rate and wire tension on the mechanical stability of wire-sawn silicon wafers
Wasmer, K., Bidiville, A., Ballif, C., Van der Meer, M., & Nasch, P. M. (2009). Study of the influence of feed rate and wire tension on the mechanical stability of wire-sawn silicon wafers. Presented at the 3rd International Workshop on Crystalline Silicon Solar Cells. Trondheim, Norway.
Microstructure and lattice bending in polycrystalline laser-crystallized silicon thin films for photovoltaic applications
Maeder, X., Niederberger, C., Christiansen, S., Bochmann, A., Andrä, G., Gawlik, A., … Michler, J. (2010). Microstructure and lattice bending in polycrystalline laser-crystallized silicon thin films for photovoltaic applications. Thin Solid Films, 519(1), 58-63. https://doi.org/10.1016/j.tsf.2010.07.058
Applications of colloidal crystal patterning for synthesis of 1D and 3D nanostructured semiconductors
Lévy-Clément, C., Wang, X., Benoit-Moez, C., Elias, J., Philippe, L., & Michler, J. (2011). Applications of colloidal crystal patterning for synthesis of 1D and 3D nanostructured semiconductors. Physica Status Solidi A: Applications and Materials, 208(6), 1426-1432. https://doi.org/10.1002/pssa.201000179
Effect of debris on the silicon wafering for solar cells
Bidiville, A., Neulist, I., Wasmer, K., & Ballif, C. (2011). Effect of debris on the silicon wafering for solar cells. Solar Energy Materials and Solar Cells, 95(8), 2490-2496. https://doi.org/10.1016/j.solmat.2011.04.038
Smaller is tougher
Beaber, A. R., Nowak, J. D., Ugurlu, O., Mook, W. M., Girshick, S. L., Ballarini, R., & Gerberich, W. W. (2011). Smaller is tougher. Philosophical Magazine, 91(7-9), 1179-1189. https://doi.org/10.1080/14786435.2010.487474
The Si<sub>3</sub>N<sub>4</sub>/TiN interface: 6. Si/TiN(001) grown and analyzed <em>in situ</em> using angle-resolved X-ray photoelectron spectroscopy
Haasch, R. T., Patscheider, J., Hellgren, N., Petrov, I., & Greene, J. E. (2012). The Si3N4/TiN interface: 6. Si/TiN(001) grown and analyzed in situ using angle-resolved X-ray photoelectron spectroscopy. Surface Science Spectra, 19(1), 82-91. https://doi.org/10.1116/11.20121006
Electrodeposition of amorphous silicon in non-oxygenated organic solvent
Bechelany, M., Elias, J., Brodard, P., Michler, J., & Philippe, L. (2012). Electrodeposition of amorphous silicon in non-oxygenated organic solvent. Thin Solid Films, 520(6), 1895-1901. https://doi.org/10.1016/j.tsf.2011.09.026
Retrospective lifetime estimation of failed and explanted diamond-like carbon coated hip joint balls
Hauert, R., Falub, C. V., Thorwarth, G., Thorwarth, K., Affolter, C., Stiefel, M., … Taeger, G. (2012). Retrospective lifetime estimation of failed and explanted diamond-like carbon coated hip joint balls. Acta Biomaterialia, 8(8), 3170-3176. https://doi.org/10.1016/j.actbio.2012.04.016
Analysis of the in-vivo failure of the adhesive interlayer for a DLC coated articulating metatarsophalangeal joint
Hauert, R., Thorwarth, G., Müller, U., Stiefel, M., Falub, C. V., Thorwarth, K., & Joyce, T. J. (2012). Analysis of the in-vivo failure of the adhesive interlayer for a DLC coated articulating metatarsophalangeal joint. Diamond and Related Materials, 25, 34-39. https://doi.org/10.1016/j.diamond.2012.02.001
Making MEMS more suited for space: assessing the proton-radiation tolerance of structural materials for microsystems in orbit
Bandi, T., Polido-Gomes, J., Neels, A., Dommann, A., & Shea, H. R. (2013). Making MEMS more suited for space: assessing the proton-radiation tolerance of structural materials for microsystems in orbit. In R. Ramesham & H. R. Shea (Eds.), Proceedings of SPIE: Vol. 8614. Reliability, packaging, testing, and characterization of MOEMS/MEMS and nanodevices XII (p. 86140M (10 pp.). https://doi.org/10.1117/12.2004705
Silicon micropillars: high stress plasticity
Rabier, J., Montagne, A., Wheeler, J. M., Demenet, J. L., Michler, J., & Ghisleni, R. (2013). Silicon micropillars: high stress plasticity. Physica Status Solidi C: Current Topics in Solid State Physics, 10(1), 11-15. https://doi.org/10.1002/pssc.201200546
Quantifying the low-energy limit and spectral resolution in valence electron energy loss spectroscopy
Aguiar, J. A., Reed, B. W., Ramasse, Q. M., Erni, R., & Browning, N. D. (2013). Quantifying the low-energy limit and spectral resolution in valence electron energy loss spectroscopy. Ultramicroscopy, 124, 130-138. https://doi.org/10.1016/j.ultramic.2012.08.010
Improved test setup for MEMS mechanical strength investigations and fabrication process qualification
Bandi, T., Maeder, X., Dommann, A., Shea, H., & Neels, A. (2014). Improved test setup for MEMS mechanical strength investigations and fabrication process qualification. In H. R. Shea & R. Ramesham (Eds.), Proceedings of SPIE: Vol. 8975. Reliability, packaging, testing, and characterization of MOEMS/MEMS, nanodevices, and nanomaterials XIII (p. 897509 (7 pp.). https://doi.org/10.1117/12.2044212
Permanent reduction of dissipation in nanomechanical Si resonators by chemical surface protection
Tao, Y., Navaretti, P., Hauert, R., Grob, U., Poggio, M., & Degen, C. L. (2015). Permanent reduction of dissipation in nanomechanical Si resonators by chemical surface protection. Nanotechnology, 26, 465501 (9 pp.). https://doi.org/10.1088/0957-4484/26/46/465501
Wire-sawing processes: parametrical study and modeling
Bidiville, A., Wasmer, K., Van der Meer, M., & Ballif, C. (2015). Wire-sawing processes: parametrical study and modeling. Solar Energy Materials and Solar Cells, 132, 392-402. https://doi.org/10.1016/j.solmat.2014.09.019
Controlled silylation of nanofibrillated cellulose in water: reinforcement of a model polydimethylsiloxane network
Zhang, Z., Tingaut, P., Rentsch, D., Zimmermann, T., & Sèbe, G. (2015). Controlled silylation of nanofibrillated cellulose in water: reinforcement of a model polydimethylsiloxane network. ChemSusChem, 8(16), 2681-2690. https://doi.org/10.1002/cssc.201500525
Quasi one-dimensional Ag nanostructures on Si(331)–(12 × 1)
Mariotti, N., Didiot, C., Schwier, E. F., Monney, C., Battaglia, C., & Aebi, P. (2015). Quasi one-dimensional Ag nanostructures on Si(331)–(12 × 1). Surface Science, 639, 39-42. https://doi.org/10.1016/j.susc.2015.04.006
Structural and optical characterization of GaAs nano-crystals selectively grown on Si nano-tips by MOVPE
Skibitzki, O., Prieto, I., Kozak, R., Capellini, G., Zaumseil, P., Arroyo Rojas Dasilva, Y., … Schroeder, T. (2017). Structural and optical characterization of GaAs nano-crystals selectively grown on Si nano-tips by MOVPE. Nanotechnology, 28(13), 135301 (10 pp.). https://doi.org/10.1088/1361-6528/aa5ec1