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Preparation and properties of La<SUB>1 - x</SUB>Ag<SUB>y</SUB>MnO<SUB>3 + δ</SUB> thin epitaxial films
Gorbenko, O. Y., Melnikov, O. V., Kaul, A. R., Koroleva, L. I., Babushkina, N. A., Taldenkov, A. N., … Szymczak, R. (2008). Preparation and properties of La1 - xAgyMnO3 + δ thin epitaxial films. Thin Solid Films, 516(12), 3783-3790. https://doi.org/10.1016/j.tsf.2007.06.120
Thin-film metal hydrides
Remhof, A., & Borgschulte, A. (2008). Thin-film metal hydrides. ChemPhysChem, 9(17), 2440-2455. https://doi.org/10.1002/cphc.200800573
Re-assessment of diffusion mobilities in the face-centered cubic Cu-Sn alloys
Wang, J., Leinenbach, C., Liu, H. S., Liu, L. B., Roth, M., & Jin, Z. P. (2009). Re-assessment of diffusion mobilities in the face-centered cubic Cu-Sn alloys. Calphad, 33(4), 704-710. https://doi.org/10.1016/j.calphad.2009.09.002
Characterization and properties of microwave plasma-treated SrTiO<SUB>3</SUB>
Shkabko, A., Aguirre, M. H., Marozau, I., Doebeli, M., Mallepell, M., Lippert, T., & Weidenkaff, A. (2009). Characterization and properties of microwave plasma-treated SrTiO3. Materials Chemistry and Physics, 115(1), 86-92. https://doi.org/10.1016/j.matchemphys.2008.11.024
Rapid nanocrystallization of soft-magnetic amorphous alloys using microwave induction heating
Nicula, R., Stir, M., Ishizaki, K., Català-Civera, J. M., & Vaucher, S. (2009). Rapid nanocrystallization of soft-magnetic amorphous alloys using microwave induction heating. Scripta Materialia, 60(2), 120-123. https://doi.org/10.1016/j.scriptamat.2008.09.019
Critical particle concentration in electrophoretic deposition
Radice, S., Bradbury, C. R., Michler, J., & Mischler, S. (2010). Critical particle concentration in electrophoretic deposition. Journal of the European Ceramic Society, 30(5), 1079-1088. https://doi.org/10.1016/j.jeurceramsoc.2009.08.021
Mobilities and diffusivities in fcc Fe-X (X = Ag, Au, Cu, Pd and Pt) alloys
Liu, Y., Wang, J., Du, Y., Zhang, L., & Liang, D. (2010). Mobilities and diffusivities in fcc Fe-X (X = Ag, Au, Cu, Pd and Pt) alloys. Calphad, 34(3), 253-262. https://doi.org/10.1016/j.calphad.2010.04.002
Evidence for hydrogen transport in deuterated LiBH<sub>4</sub> from raman-scattering measurements and first-principles calculations
Borgschulte, A., Gremaud, R., Ramirez-Cuesta, A. J., Refson, K., & Züttel, A. (2010). Evidence for hydrogen transport in deuterated LiBH4 from raman-scattering measurements and first-principles calculations. P. Vincenzini, C. Powell, M. Vittori Antisari, V. Antonucci, & F. Croce (Eds.), Advances in science and technology: Vol. 72. (pp. 150-157). Presented at the 5th forum on new materials (CIMTEC 2010). https://doi.org/10.4028/www.scientific.net/AST.72.150
Microwave-induced electromigration in multicomponent metallic alloys
Vaucher, S., Bernau, L., Stir, M., Ishizaki, K., Català-Civera, J. M., & Nicula, R. (2010). Microwave-induced electromigration in multicomponent metallic alloys. In IEEE MTT-S international microwave symposium digest. 2010 IEEE MTT-S international microwave symposium (MTT) (pp. 1440-1443). https://doi.org/10.1109/MWSYM.2010.5517705
Calculation of effective permeability of a fruit cortex tissue from microscopic simulations
Fanta, S., Abera, M., Ho, Q. T., Verboven, P., Nicolaï, B. M., & Carmeliet, J. (2010). Calculation of effective permeability of a fruit cortex tissue from microscopic simulations. In V. Cadavez & D. Thiel (Eds.), 6th international conference on simulation and modelling in the food and bio-industry 2010. FOODSIM'2010 (pp. 59-62). EUROSIS-ETI.
Diffusion and atomic mobilities in fcc Ni-Sn alloys
Wang, J., Leinenbach, C., Liu, H. S., Liu, L. B., Roth, M., & Jin, Z. P. (2010). Diffusion and atomic mobilities in fcc Ni-Sn alloys. Journal of Phase Equilibria and Diffusion, 31(1), 28-33. https://doi.org/10.1007/s11669-009-9607-x
Study of atomic mobilities and diffusion characteristics in bcc Ti-Ta and Ta-W alloys
Liu, Y., Zhang, L., Du, Y., Wang, J., & Liang, D. (2010). Study of atomic mobilities and diffusion characteristics in bcc Ti-Ta and Ta-W alloys. Calphad, 34(3), 310-316. https://doi.org/10.1016/j.calphad.2010.06.004
Study of diffusion and atomic mobilities for fcc Ag-Cd and Ag-Sn solder alloys
Liu, Y., Wang, J., Du, Y., Sheng, G., Zhang, L., & Liang, D. (2011). Study of diffusion and atomic mobilities for fcc Ag-Cd and Ag-Sn solder alloys. Calphad, 35(2), 224-230. https://doi.org/10.1016/j.calphad.2011.01.001
Reactive synthesis of Ti-Al intermetallics during microwave heating in an E-field maximum
Vaucher, S., Stir, M., Ishizaki, K., Català-Civera, J. M., & Nicula, R. (2011). Reactive synthesis of Ti-Al intermetallics during microwave heating in an E-field maximum. Thermochimica Acta, 522(1-2), 151-154. https://doi.org/10.1016/j.tca.2010.11.026
Atomic mobilities and diffusion characteristics for fcc Cu–Ag–Au alloys
Liu, Y., Wang, J., Du, Y., Sheng, G., Zhang, L., & Liang, D. (2011). Atomic mobilities and diffusion characteristics for fcc Cu–Ag–Au alloys. Calphad, 35(3), 314-322. https://doi.org/10.1016/j.calphad.2011.03.001
Assessment of the atomic mobilities in fcc Cu-Fe and Cu-Ti alloys
Wang, J., Leinenbach, C., Liu, L. B., Liu, H. S., & Jin, Z. P. (2011). Assessment of the atomic mobilities in fcc Cu-Fe and Cu-Ti alloys. Journal of Phase Equilibria and Diffusion, 32(1), 30-38. https://doi.org/10.1007/s11669-010-9819-0
Atomic mobilities, zero-flux planes and flux reversals in fcc Cu-Fe-Ni alloys
Liu, Y., Zhang, L., Du, Y., Sheng, G., Wang, J., & Liang, D. (2011). Atomic mobilities, zero-flux planes and flux reversals in fcc Cu-Fe-Ni alloys. Calphad, 35(3), 376-383. https://doi.org/10.1016/j.calphad.2011.04.006
Numerical modeling of nanoparticle penetration through personal protective garments
Ling, T. Y., Wang, J., & Pui, D. Y. H. (2012). Numerical modeling of nanoparticle penetration through personal protective garments. Separation and Purification Technology, 98(1), 230-239. https://doi.org/10.1016/j.seppur.2012.07.015
Water transport properties of artificial cell walls
Fanta, S. W., Vanderlinden, W., Abera, M. K., Verboven, P., Karki, R., Ho, Q. T., … Nicolaï, B. M. (2012). Water transport properties of artificial cell walls. Journal of Food Engineering, 108(3), 393-402. https://doi.org/10.1016/j.jfoodeng.2011.09.010
Ni and Ti diffusion barrier layers between Ti–Si–C and Ti–Si–C–Ag nanocomposite coatings and Cu-based substrates
Sarius, N. G., Lauridsen, J., Lewin, E., Lu, J., Högberg, H., Öberg, Å., … Hultman, L. (2012). Ni and Ti diffusion barrier layers between Ti–Si–C and Ti–Si–C–Ag nanocomposite coatings and Cu-based substrates. Surface and Coatings Technology, 206(8-9), 2558-2565. https://doi.org/10.1016/j.surfcoat.2011.11.014