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In-plane alignment of noncentrosymmetric molecules by oblique-incidence molecular beam deposition
Müller, B., Cai, C., Kündig, A., Tao, Y., Bösch, M., Jäger, M., … Günter, P. (1999). In-plane alignment of noncentrosymmetric molecules by oblique-incidence molecular beam deposition. Applied Physics Letters, 74(21), 3110-3112. https://doi.org/10.1063/1.124078
A Fabry-Perot interferometer for micrometer-sized cantilevers
Hoogenboom, B. W., Frederix, P. L. T. M., Yang, J. L., Martin, S., Pellmont, Y., Steinacher, M., … Hug, H. J. (2005). A Fabry-Perot interferometer for micrometer-sized cantilevers. Applied Physics Letters, 86, 074101 (3 pp.). https://doi.org/10.1063/1.1866229
Miniaturized single-crystal silicon cantilevers for scanning force microscopy
Yang, J. L., Despont, M., Drechsler, U., Hoogenboom, B. W., Frederix, P. L. T. M., Martin, S., … Hug, H. J. (2005). Miniaturized single-crystal silicon cantilevers for scanning force microscopy. Applied Physics Letters, 86, 134101 (3 pp.). https://doi.org/10.1063/1.1895482
Measurement of thermal conductivity of individual multiwalled carbon nanotubes by the 3-ω method
Choi, T. Y., Poulikakos, D., Tharian, J., & Sennhauser, U. (2005). Measurement of thermal conductivity of individual multiwalled carbon nanotubes by the 3-ω method. Applied Physics Letters, 87, 013108 (4 pp.). https://doi.org/10.1063/1.1957118
Investigation of field emission properties of carbon nanotube arrays defined using nanoimprint lithography
Vieira, S. M. C., Teo, K. B. K., Milne, W. I., Gröning, O., Gangloff, L., Minoux, E., & Legagneux, P. (2006). Investigation of field emission properties of carbon nanotube arrays defined using nanoimprint lithography. Applied Physics Letters, 89(2), 022111 (3 pp.). https://doi.org/10.1063/1.2219124
Density determination of focused-electron-beam-induced deposits with simple cantilever-based method
Utke, I., Friedli, V., Michler, J., Bret, T., Multone, X., & Hoffmann, P. (2006). Density determination of focused-electron-beam-induced deposits with simple cantilever-based method. Applied Physics Letters, 88(3), 031906 (3 pp.). https://doi.org/10.1063/1.2158516
Local electron beam induced reduction and crystallization of amorphous titania films
Kern, P., Jäggi, C., Utke, I., Friedli, V., & Michler, J. (2006). Local electron beam induced reduction and crystallization of amorphous titania films. Applied Physics Letters, 89(2), 021902 (3 pp.). https://doi.org/10.1063/1.2219398
Quantitative dynamic-mode scanning force microscopy in liquid
Hoogenboom, B. W., Hug, H. J., Pellmont, Y., Martin, S., Frederix, P. L. T. M., Fotiadis, D., & Engel, A. (2006). Quantitative dynamic-mode scanning force microscopy in liquid. Applied Physics Letters, 88(19), 193109 (3 pp.). https://doi.org/10.1063/1.2202638
Experimental studies on intermediate compound of LiBH<sub>4</sub>
Orimo, S. I., Nakamori, Y., Ohba, N., Miwa, K., Aoki, M., Towata, S. I., & Züttel, A. (2006). Experimental studies on intermediate compound of LiBH4. Applied Physics Letters, 89(2), 021920 (3 pp.). https://doi.org/10.1063/1.2221880
Electrohydrogenation of MgH<SUB>2</SUB>-thin films
Borgschulte, A., Rector, J. H., Schreuders, H., Dam, B., & Griessen, R. (2007). Electrohydrogenation of MgH2-thin films. Applied Physics Letters, 90(7), 071912 (3 pp.). https://doi.org/10.1063/1.2695626
Plastic deformation of gallium arsenide micropillars under uniaxial compression at room temperature
Michler, J., Wasmer, K., Meier, S., Östlund, F., & Leifer, K. (2007). Plastic deformation of gallium arsenide micropillars under uniaxial compression at room temperature. Applied Physics Letters, 90(4), 043123 (3 pp.). https://doi.org/10.1063/1.2432277
Mass sensor for <I>in situ</I> monitoring of focused ion and electron beam induced processes
Friedli, V., Santschi, C., Michler, J., Hoffmann, P., & Utke, I. (2007). Mass sensor for in situ monitoring of focused ion and electron beam induced processes. Applied Physics Letters, 90(5), 053106 (3 pp.). https://doi.org/10.1063/1.2435611
Scanning tunneling microscopy investigations of hydrogen plasma-induced electron scattering centers on single-walled carbon nanotubes
Buchs, G., Ruffieux, P., Gröning, P., & Gröning, O. (2007). Scanning tunneling microscopy investigations of hydrogen plasma-induced electron scattering centers on single-walled carbon nanotubes. Applied Physics Letters, 90(1), 013104 (3 pp.). https://doi.org/10.1063/1.2428594
Yield stress of monocrystalline rhenium nanowires
Philippe, L., Peyrot, I., Michler, J., Hassel, A. W., & Milenkovic, S. (2007). Yield stress of monocrystalline rhenium nanowires. Applied Physics Letters, 91(11), 111919 (3 pp.). https://doi.org/10.1063/1.2785153
Plastic deformation modes of gallium arsenide in nanoindentation and nanoscratching
Wasmer, K., Parlinska-Wojtan, M., Gassilloud, R., Pouvreau, C., Tharian, J., & Micher, J. (2007). Plastic deformation modes of gallium arsenide in nanoindentation and nanoscratching. Applied Physics Letters, 90(3), 031902 (3 pp.). https://doi.org/10.1063/1.2431763
Spin-polarized current versus stray field in a perpendicularly magnetized superconducting spin switch
Singh, A., Sürgers, C., Hoffmann, R., v. Löhneysen, H., Ashworth, T. V., Pilet, N., & Hug, H. J. (2007). Spin-polarized current versus stray field in a perpendicularly magnetized superconducting spin switch. Applied Physics Letters, 91(15), 152504 (3 pp.). https://doi.org/10.1063/1.2794424
Fabrication of organic light-emitting diode pixels by laser-assisted forward transfer
Fardel, R., Nagel, M., Nüesch, F., Lippert, T., & Wokaun, A. (2007). Fabrication of organic light-emitting diode pixels by laser-assisted forward transfer. Applied Physics Letters, 91(6), 061103 (3 pp.). https://doi.org/10.1063/1.2759475
Defect-induced negative differential resistance in single-walled carbon nanotubes
Buchs, G., Ruffieux, P., Gröning, P., & Gröning, O. (2008). Defect-induced negative differential resistance in single-walled carbon nanotubes. Applied Physics Letters, 93(7), 073115 (3 pp.). https://doi.org/10.1063/1.2975177
Electron hole-phonon interaction, correlation of structure, and conductivity in single crystal La<SUB>0.9</SUB>Sr<SUB>0.1</SUB>FeO<SUB>3-</SUB><I><SUB>δ</SUB></I>
Braun, A., Richter, J., Harvey, A. S., Erat, S., Infortuna, A., Frei, A., … Graule, T. (2008). Electron hole-phonon interaction, correlation of structure, and conductivity in single crystal La0.9Sr0.1FeO3-δ. Applied Physics Letters, 93(26), 262103 (3 pp.). https://doi.org/10.1063/1.3049614
Controlled focused electron beam-induced etching for the fabrication of sub-beam-size nanoholes
Miyazoe, H., Utke, I., Michler, J., & Terashima, K. (2008). Controlled focused electron beam-induced etching for the fabrication of sub-beam-size nanoholes. Applied Physics Letters, 92(4), 043124 (3 pp.). https://doi.org/10.1063/1.2839334
 

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