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Theory and experiment on SERS sensitivity tuning of TiO<sub>2</sub> aerogels based on surface oxygen vacancy engineering
Liu, W., Zhao, Z., Yuan, M., Wang, Z., Shang, S., Ye, X., … Cui, S. (2024). Theory and experiment on SERS sensitivity tuning of TiO2 aerogels based on surface oxygen vacancy engineering. Applied Surface Science, 655, 159561 (7 pp.). https://doi.org/10.1016/j.apsusc.2024.159561
Gold recovery from E-waste by food-waste amyloid aerogels
Peydayesh, M., Boschi, E., Donat, F., & Mezzenga, R. (2024). Gold recovery from E-waste by food-waste amyloid aerogels. Advanced Materials. https://doi.org/10.1002/adma.202310642
Enhancing interface connectivity for multifunctional magnetic carbon aerogels: an in situ growth strategy of metal-organic frameworks on cellulose nanofibrils
Qiao, J., Song, Q., Zhang, X., Zhao, S., Liu, J., Nyström, G., & Zeng, Z. (2024). Enhancing interface connectivity for multifunctional magnetic carbon aerogels: an in situ growth strategy of metal-organic frameworks on cellulose nanofibrils. Advanced Science. https://doi.org/10.1002/advs.202400403
Thermally insulating cellulose nanofiber aerogels from brewery residues
Ahmadi Heidari, N., Fathi, M., Hamdami, N., Taheri, H., Siqueira, G., & Nyström, G. (2023). Thermally insulating cellulose nanofiber aerogels from brewery residues. ACS Sustainable Chemistry and Engineering, 11(29), 10698-10708. https://doi.org/10.1021/acssuschemeng.3c01113
The aerogel industry
Collins, R. A., Zhao, S., Wang, J., Griffin, J. S., & Steiner III, S. A. (2023). The aerogel industry. In M. A. Aegerter, N. Leventis, M. Koebel, & S. A. Steiner III (Eds.), Springer handbooks: Vol. 2522-8706. Springer handbook of aerogels (pp. 1583-1640). https://doi.org/10.1007/978-3-030-27322-4_64
Current trends in aerogel use in heritage buildings: case studies from the aerogel architecture award 2021
Ganobjak, M., Brunner, S., Hofmann, J., Klar, V., Ledermann, M., Herzog, V., … Wernery, J. (2023). Current trends in aerogel use in heritage buildings: case studies from the aerogel architecture award 2021. Gels, 9(10), 814 (14 pp.). https://doi.org/10.3390/gels9100814
Glossary of aerogel terminology
Steiner III, S. A., Aegerter, M. A., Koebel, M. M., & Leventis, N. (2023). Glossary of aerogel terminology. In M. A. Aegerter, N. Leventis, M. Koebel, & S. A. Steiner III (Eds.), Springer handbooks. Springer handbook of aerogels (pp. 1745-1762). https://doi.org/10.1007/978-3-030-27322-4_67
Monolithic resorcinol-formaldehyde alcogels and their corresponding nitrogen-doped activated carbons
Civioc, R., Lattuada, M., Koebel, M. M., & Galmarini, S. (2020). Monolithic resorcinol-formaldehyde alcogels and their corresponding nitrogen-doped activated carbons. Journal of Sol-Gel Science and Technology, 95, 719-732. https://doi.org/10.1007/s10971-020-05288-x
Topology-optimized insulating facebrick with aerogel filling
Ganobjak, M., & Carstensen, J. V. (2019). Topology-optimized insulating facebrick with aerogel filling. In J. L. Scartezzini & B. Smith (Eds.), Journal of physics: conference series: Vol. 1343. CISBAT 2019 international conference on climate resilient cities - energy efficiency & renewables in the digital era (p. 012195 (6 pp.). https://doi.org/10.1088/1742-6596/1343/1/012195
Synthesis of high surface area TiO<sub>2</sub> aerogel support with Pt nanoparticle catalyst and CO oxidation study
Choi, H., Carboni, M., Kim, Y. K., Jung, C. H., Moon, S. Y., Koebel, M. M., & Park, J. Y. (2018). Synthesis of high surface area TiO2 aerogel support with Pt nanoparticle catalyst and CO oxidation study. Catalysis Letters, 148(5), 1504-1513. https://doi.org/10.1007/s10562-018-2355-y
Hydrophobic TiO<sub>2</sub>-SiO<sub>2</sub> aerogel composites for fast removal of organic pollutants
Xu, H., Jia, J., Zhao, S., Chen, P., Xia, Q., Wu, J., & Zhu, P. (2018). Hydrophobic TiO2-SiO2 aerogel composites for fast removal of organic pollutants. Chemistry Select, 3(37), 10483-10490. https://doi.org/10.1002/slct.201801646
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
Rapid carbon nanotubes suspension in organic solvents using organosilicon polymers
Dalcanale, F., Grossenbacher, J., Blugan, G., Gullo, M. R., Brugger, J., Tevaearai, H., … Kuebler, J. (2016). Rapid carbon nanotubes suspension in organic solvents using organosilicon polymers. Journal of Colloid and Interface Science, 470, 123-131. https://doi.org/10.1016/j.jcis.2016.02.050
Thermal assessment of ambient pressure dried silica aerogel composite boards at laboratory and field scale
Garay Martinez, R., Goiti, E., Reichenauer, G., Zhao, S., Koebel, M., & Barrio, A. (2016). Thermal assessment of ambient pressure dried silica aerogel composite boards at laboratory and field scale. Energy and Buildings, 128, 111-118. https://doi.org/10.1016/j.enbuild.2016.06.071
Reaction of aerogel containing ceramic fibre insulation to fire exposure
Ghazi Wakili, K., & Remhof, A. (2016). Reaction of aerogel containing ceramic fibre insulation to fire exposure. Fire and Materials, 41(1), 29-39. https://doi.org/10.1002/fam.2367
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
Aerogel-based thermal superinsulation: an overview
Koebel, M., Rigacci, A., & Achard, P. (2012). Aerogel-based thermal superinsulation: an overview. Journal of Sol-Gel Science and Technology, 63(3), 315-339. https://doi.org/10.1007/s10971-012-2792-9