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  • (-) Empa Laboratories = 206 Mechanics of Materials and Nanostructures
  • (-) Publication Year = 2006 - 2019
  • (-) Journal ≠ Journal of Physical Chemistry C
  • (-) Publication Type = Book Chapter
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Focused electron beam induced processing
Fairbrother, D. H., Rosenberg, S. G., Hagen, C. W., Utke, I., & Swiderek, P. (2019). Focused electron beam induced processing. In O. Ingólfsson (Ed.), Low-energy electrons. Fundamentals and applications (pp. 219-284). Taylor & Francis.
Atomic layer deposition for surface and interface engineering in nanostructured photovoltaic devices
Guerra-Nuñez, C., Park, H. G., & Utke, I. (2017). Atomic layer deposition for surface and interface engineering in nanostructured photovoltaic devices. In J. Bachmann (Ed.), Atomic layer deposition in energy conversion applications (pp. 119-148). https://doi.org/10.1002/9783527694822.ch4
Direct–write milling and deposition with noble gases
Shorubalko, I., Pillatsch, L., & Utke, I. (2016). Direct–write milling and deposition with noble gases. In G. Hlawacek & A. Gölzhäuser (Eds.), Helium ion microscopy (pp. 355-393). https://doi.org/10.1007/978-3-319-41990-9_15
In situ testing of mechanical properties of materials
Östlund, F., Rzepiejewska-Malyska, K., Philippe, L., Schwaller, P., & Michler, J. (2015). In situ testing of mechanical properties of materials. In Y. Qin (Ed.), Micro and nano technologies. Micromanufacturing engineering and technology (pp. 715-732). https://doi.org/10.1016/B978-0-323-31149-6.00031-1
Les déchets du travail du fer
Eschenlohr, L., Senn, M., & Friedli, V. (2014). Les déchets du travail du fer. In C. Deslex (Ed.), Cahier d'archéologie jurassienne: Vol. 33. Courtedoux-Creugenat. Un hameau du Haut Moyen Âge en Ajoie (pp. 245-267).
Gas injection systems for FEB and FIB processing. Theory and experiment
Friedli, V., Wanzenböck, H. D., & Utke, I. (2012). Gas injection systems for FEB and FIB processing. Theory and experiment. In I. Utke, S. Moshkalev, & P. Russell (Eds.), Oxford series on nanomanufacturing. Nanofabrication using focused ion and electron beams. Principles and applications (pp. 126-183).
Focused ion and electron beam induced deposition of magnetic nanostructures
Gabureac, M. S., Bernau, L., Utke, I., Fernández-Pacheco, A., & De Teresa, J. M. (2012). Focused ion and electron beam induced deposition of magnetic nanostructures. In I. Utke, S. Moshkalev, & P. Russell (Eds.), Oxford series on nanomanufacturing. Nanofabrication using focused ion and electron beams. Principles and applications (pp. 515-537).
Analysis of thin and thick films
Le Coustumer, P., Chapon, P., Tempez, A., Popov, Y., Thompson, G., Molchan, I., … François-Saint-Cyr, H. (2012). Analysis of thin and thick films. In M. S. Lee (Ed.), Wiley series on pharmaceutical science and biotechnology: practices, applications and methods: Vol. 7. Mass spectrometry handbook (pp. 943-959). https://doi.org/10.1002/9781118180730.ch41
Focused beam processing - new beam technologies - new challenges in process development and nanofabrication
Melngailis, J., Moshkalev, S. A., & Utke, I. (2012). Focused beam processing - new beam technologies - new challenges in process development and nanofabrication. In I. Utke, S. Moshkalev, & P. Russell (Eds.), Oxford series on nanomanufacturing. Nanofabrication using focused ion and electron beams. Principles and applications (pp. 755-781).
FEB and FIB continuum models for one adsorbate species
Utke, I. (2012). FEB and FIB continuum models for one adsorbate species. In I. Utke, S. Moshkalev, & P. Russell (Eds.), Oxford series on nanomanufacturing. Nanofabrication using focused ion and electron beams. Principles and applications (pp. 248-285).
In situ monitoring of gas-assisted focused ion beam and focused electron beam induced processing
Utke, I., Jenke, M. G., Friedli, V., & Michler, J. (2012). In situ monitoring of gas-assisted focused ion beam and focused electron beam induced processing. In I. Utke, S. Moshkalev, & P. Russell (Eds.), Oxford series on nanomanufacturing. Nanofabrication using focused ion and electron beams. Principles and applications (pp. 436-456). Oxford University Press.
The historical development of electron beam induced deposition and etching. From carbonaceous to functional materials
Utke, I., & Koops, H. W. P. (2012). The historical development of electron beam induced deposition and etching. From carbonaceous to functional materials. In I. Utke, S. Moshkalev, & P. Russell (Eds.), Oxford series on nanomanufacturing. Nanofabrication using focused ion and electron beams. Principles and applications (pp. 3-35).
In-situ testing of mechanical properties of materials
Östlund, F., Rzepiejewska-Malyska, K., Philippe, L., Schwaller, P., & Michler, J. (2010). In-situ testing of mechanical properties of materials. In Y. Qin (Ed.), Micro and nano technologies. Micro-manufacturing engineering and technology (pp. 331-343). https://doi.org/10.1016/B978-0-8155-1545-6.00021-1
Fracture and crack growth in bulk nanostructured materials
Schwaiger, R., Moser, B., & Hanlon, T. (2009). Fracture and crack growth in bulk nanostructured materials. In M. J. Zehetbauer & Y. T. Zhu (Eds.), Bulk nanostructured materials (pp. 469-479). https://doi.org/10.1002/9783527626892.ch21
AFM sensors in scanning electron and ion microscopes: tools for nanomechanics, nanoanalytics, and nanofabrication
Friedli, V., Hoffmann, S., Michler, J., & Utke, I. (2008). AFM sensors in scanning electron and ion microscopes: tools for nanomechanics, nanoanalytics, and nanofabrication. In B. Bhushan, H. Fuchs, & M. Tomitori (Eds.), Nanoscience and technology. Applied scanning probe methods VIII. Scanning probe microscopy techniques (pp. 247-287). https://doi.org/10.1007/978-3-540-74080-3_7
Size effects on deformation and fracture of nanostructured metals
Moser, B., Schwaiger, R., & Dao, M. (2006). Size effects on deformation and fracture of nanostructured metals. In A. Cavaleiro & J. T. M. De Hosson (Eds.), Nanostructure science and technology series. Nanostructured coatings (pp. 27-77). https://doi.org/10.1007/978-0-387-48756-4_2
Cellulose fibrils: isolation, characterization, and capability for technical applications
Zimmermann, T., Pöhler, E., Geiger, T., Schleuniger, J., Schwaller, P., & Richter, K. (2006). Cellulose fibrils: isolation, characterization, and capability for technical applications. In K. Oksman & M. Sain (Eds.), ACS Symposium Series: Vol. 938. Cellulose Nanocomposites (pp. 33-47). https://doi.org/10.1021/bk-2006-0938.ch004