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Superinsulation materials for energy-efficient train envelopes
Wernery, J., Brunner, S., Weber, B., Knuth, C., & Koebel, M. M. (2021). Superinsulation materials for energy-efficient train envelopes. Applied Sciences, 11(7), 2939 (19 pp.). https://doi.org/10.3390/app11072939
Mapping of the conditions (components & assemblies)
Adl-Zarrabi, B., Mukhopadhyaya, P., Johansson, P., Brunner, S., Galliano, R., Heinemann, U., … Chen, Z. (2020). Mapping of the conditions (components & assemblies). In B. Adl-Zarrabi & P. Johansson (Eds.), Long-term performance of super-insulating-materials in building components & systems. Report of subtask III: practical applications retrofitting at the building scale - field scale (pp. 9-48). CSTB.
Aerogel materials for heritage buildings: materials, properties and case studies
Ganobjak, M., Brunner, S., & Wernery, J. (2020). Aerogel materials for heritage buildings: materials, properties and case studies. Journal of Cultural Heritage, 42, 81-98. https://doi.org/10.1016/j.culher.2019.09.007
Vacuum insulation panels
Heinemann, U., Brunner, S., Kucukpinar, E., Jelle, B. P., Sprengard, C., Mukhopadhyaya, P., … He, Y. (2020). Vacuum insulation panels. In U. Heinemann (Ed.), Long-term performance of super-insulating materials in building components and systems. Report of subtask I: state of the art and case studies (pp. 41-102). CSTB.
VIPs performance and operating conditions at building scale for service life planning
Lorenzati, A., Capozzoli, A., Batard, A., Sprengard, C., Gudmunsson, K., Perino, M., … Duforestel, T. (2020). VIPs performance and operating conditions at building scale for service life planning. In B. Adl-Zarrabi & P. Johansson (Eds.), Long-term performance of super-insulating-materials in building components & systems. Report of subtask III: practical applications retrofitting at the building scale - field scale (pp. 49-67). CSTB.
Advanced porous materials
Milow, B., Brunner, S., Foray, G., Yrieix, B., Heinemann, U., Sprengard, C., … Fiorentino, B. (2020). Advanced porous materials. In U. Heinemann (Ed.), Long-term performance of super-insulating materials in building components and systems. Report of subtask I: state of the art and case studies (pp. 33-40). CSTB.
Additive manufacturing of silica aerogels
Zhao, S., Siqueira, G., Drdova, S., Norris, D., Ubert, C., Bonnin, A., … Malfait, W. J. (2020). Additive manufacturing of silica aerogels. Nature, 584(7821), 387-392. https://doi.org/10.1038/s41586-020-2594-0
Effect of aging on thermal conductivity of fiber-reinforced aerogel composites: an X-ray tomography study
Iswar, S., Griffa, M., Kaufmann, R., Beltran, M., Huber, L., Brunner, S., … Malfait, W. J. (2019). Effect of aging on thermal conductivity of fiber-reinforced aerogel composites: an X-ray tomography study. Microporous and Mesoporous Materials, 278, 289-296. https://doi.org/10.1016/j.micromeso.2018.12.006
Study of physical properties and microstructure of aerogel-cement mortars for improving the fire safety of high-performance concrete linings in tunnels
Zhu, P., Brunner, S., Zhao, S., Griffa, M., Leemann, A., Toropovs, N., … Lura, P. (2019). Study of physical properties and microstructure of aerogel-cement mortars for improving the fire safety of high-performance concrete linings in tunnels. Cement and Concrete Composites, 104, 103414 (11 pp.). https://doi.org/10.1016/j.cemconcomp.2019.103414
Evaluation of VIPs after mild artificial aging during 10 years: focus on the core behavior
Pons, E., Yrieix, B., & Brunner, S. (2018). Evaluation of VIPs after mild artificial aging during 10 years: focus on the core behavior. Energy and Buildings, 162, 198-207. https://doi.org/10.1016/j.enbuild.2017.12.016
Biopolymer-silica aerogel
Malfait, W., Zhao, S., Brunner, S., Huber, L., & Koebel, M. (2017). Biopolymer-silica aerogel. GIT Laboratory Journal, 21(1-2) (3 pp.).
Development of a super-insulating, aerogel-based textile wallpaper for the indoor energy retrofit of existing residential buildings
Masera, G., Wakili, K. G., Stahl, T., Brunner, S., Galliano, R., Monticelli, C., … Elesawy, A. (2017). Development of a super-insulating, aerogel-based textile wallpaper for the indoor energy retrofit of existing residential buildings. In L. Ding, F. Fiorito, & P. Osmond (Eds.), Procedia engineering: Vol. 180. International high-performance built environment conference – a sustainable built environment conference 2016 Series (SBE16), iHBE 2016 (pp. 1139-1149). https://doi.org/10.1016/j.proeng.2017.04.274
Aerobrick - an aerogel-filled insulating brick
Wernery, J., Ben-Ishai, A., Binder, B., & Brunner, S. (2017). Aerobrick - an aerogel-filled insulating brick. In J. Littlewood & R. J. Howlett (Eds.), Energy procedia: Vol. 134. Sustainability in energy and buildings 2017: proceedings of the ninth KES international conference (pp. 490-498). https://doi.org/10.1016/j.egypro.2017.09.607
Vergleichende Untersuchungen zur energetischen Sanierung von Fachwerkwänden mit Aerogeldämmputz als Innendämmung
Stahl, T., Ghazi Wakili, K., Vonbank, R., & Brunner, S. (2016). Vergleichende Untersuchungen zur energetischen Sanierung von Fachwerkwänden mit Aerogeldämmputz als Innendämmung. Bauphysik, 38(5), 274-284. https://doi.org/10.1002/bapi.201610029
Aerogel-Hochleistungsdämmstoffe: Systeme und Anwendungen
Wernery, J., Brunner, S., & Koebel, M. (2016). Aerogel-Hochleistungsdämmstoffe: Systeme und Anwendungen (p. (16 pp.). Presented at the 19. Status-Seminar «Forschen für den Bau im Kontext von Energie und Umwelt». brenet.
Heat and mass transfer of temperature-vacuum swing desorption for CO<SUB>2</SUB> capture from air
Wurzbacher, J. A., Gebald, C., Brunner, S., & Steinfeld, A. (2016). Heat and mass transfer of temperature-vacuum swing desorption for CO2 capture from air. Chemical Engineering Journal, 283, 1329-1338. https://doi.org/10.1016/j.cej.2015.08.035
Characterization of materials released into water from paint containing nano-SiO<SUB>2</SUB>
Al-Kattan, A., Wichser, A., Vonbank, R., Brunner, S., Ulrich, A., Zuin, S., … Nowack, B. (2015). Characterization of materials released into water from paint containing nano-SiO2. Chemosphere, 119, 1314-1321. https://doi.org/10.1016/j.chemosphere.2014.02.005
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
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
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