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Hygrothermal behaviour of three internal retrofit prototype solutions
Galliano, R., Stahl, T., Brunner, S., Zhao, S., Masera, G., & Aliprandi, S. (2015). Hygrothermal behaviour of three internal retrofit prototype solutions. In M. Perino & V. Corrado (Eds.), Energy procedia: Vol. 78. 6th international building physics conference, IBPC 2015 (pp. 1413-1418). https://doi.org/10.1016/j.egypro.2015.11.163
Thermal conductivity of gypsum boards beyond dehydration temperature
Ghazi Wakili, K., Koebel, M., Glaettli, T., & Hofer, M. (2015). Thermal conductivity of gypsum boards beyond dehydration temperature. Fire and Materials, 39(1), 85-94. https://doi.org/10.1002/fam.2234
Cost-effective pilot-scale demonstration of ambient-dried silica aerogel production by a novel one-pot process
Huber, L., Zhao, S., & Koebel, M. M. (2015). Cost-effective pilot-scale demonstration of ambient-dried silica aerogel production by a novel one-pot process. In Solar energy and building physics laboratory (LESO-PB) & Ecole Polytechnique Fédérale de Lausanne (EPFL) (Eds.), Vol. I. Proceedings of CISBAT 2015 (pp. 9-14). https://doi.org/10.5075/epfl-cisbat2015-9-14
Comment on “spectroscopic studies of oxygen speciation in potassium silicate glasses and melts”
Malfait, W. J. (2015). Comment on “spectroscopic studies of oxygen speciation in potassium silicate glasses and melts”. Canadian Journal of Chemistry, 93, 578-580. https://doi.org/10.1139/cjc-2014-0587
Surface chemistry of hydrophobic silica aerogels
Malfait, W. J., Zhao, S., Verel, R., Iswar, S., Rentsch, D., Fener, R., … Koebel, M. M. (2015). Surface chemistry of hydrophobic silica aerogels. Chemistry of Materials, 27(19), 6737-6745. https://doi.org/10.1021/acs.chemmater.5b02801
Methyltrimethoxysilane (MTMS)-based silica–iron oxide superhydrophobic nanocomposites
Nadargi, D., Gurav, J., Marioni, M. A., Romer, S., Matam, S., & Koebel, M. M. (2015). Methyltrimethoxysilane (MTMS)-based silica–iron oxide superhydrophobic nanocomposites. Journal of Colloid and Interface Science, 459, 123-126. https://doi.org/10.1016/j.jcis.2015.08.018
Fate of MgSiO<SUB>3</SUB> melts at core–mantle boundary conditions
Petitgirard, S., Malfait, W. J., Sinmyo, R., Kupenko, I., Hennet, L., Harries, D., … Rubie, D. C. (2015). Fate of MgSiO3 melts at core–mantle boundary conditions. Proceedings of the National Academy of Sciences of the United States of America PNAS, 112(46), 14186-14190. https://doi.org/10.1073/pnas.1512386112
Low cost silica aerogel production
Stojanovic, A., & Koebel, M. (2015). Low cost silica aerogel production. In Solar energy and building physics laboratory (LESO-PB) & Ecole Polytechnique Fédérale de Lausanne (EPFL) (Eds.), Vol. I. Proceedings of CISBAT 2015 (pp. 27-32). https://doi.org/10.5075/epfl-cisbat2015-27-32
Mechanical and thermal properties of nanofibrillated cellulose reinforced silica aerogel composites
Wong, J. C. H., Kaymak, H., Tingaut, P., Brunner, S., & Koebel, M. M. (2015). Mechanical and thermal properties of nanofibrillated cellulose reinforced silica aerogel composites. Microporous and Mesoporous Materials, 217, 150-158. https://doi.org/10.1016/j.micromeso.2015.06.025
Aerogels
Zhao, S., Manic, M. S., Ruiz-Gonzalez, F., & Koebel, M. M. (2015). Aerogels. In D. Levy & M. Zayat (Eds.), The Sol-Gel handbook: synthesis, characterization, and applications. (pp. 519-574). https://doi.org/10.1002/9783527670819.ch17
Dimensional and structural control of silica aerogel membranes for miniaturized motionless gas pumps
Zhao, S., Jiang, B., Maeder, T., Muralt, P., Kim, N., Matam, S. K., … Koebel, M. M. (2015). Dimensional and structural control of silica aerogel membranes for miniaturized motionless gas pumps. ACS Applied Materials and Interfaces, 7(33), 18803-18814. https://doi.org/10.1021/acsami.5b05462
Multiscale assembly of superinsulating silica aerogels within silylated nanocellulosic scaffolds: improved mechanical properties promoted by nanoscale chemical compatibilization
Zhao, S., Zhang, Z., Sèbe, G., Wu, R., Rivera Virtudazo, R. V., Tingaut, P., & Koebel, M. M. (2015). Multiscale assembly of superinsulating silica aerogels within silylated nanocellulosic scaffolds: improved mechanical properties promoted by nanoscale chemical compatibilization. Advanced Functional Materials, 25(15), 2326-2334. https://doi.org/10.1002/adfm.201404368
Strong, thermally superinsulating biopolymer–silica aerogel hybrids by cogelation of silicic acid with pectin
Zhao, S., Malfait, W. J., Demilecamps, A., Zhang, Y., Brunner, S., Huber, L., … Koebel, M. M. (2015). Strong, thermally superinsulating biopolymer–silica aerogel hybrids by cogelation of silicic acid with pectin. Angewandte Chemie International Edition, 54(48), 14282-14286. https://doi.org/10.1002/anie.201507328