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Ureido functionalization through amine-urea transamidation under mild reaction conditions
Guerrero-Alburquerque, N., Zhao, S., Rentsch, D., Koebel, M. M., Lattuada, M., & Malfait, W. J. (2021). Ureido functionalization through amine-urea transamidation under mild reaction conditions. Polymers, 13(10), 1583 (16 pp.). https://doi.org/10.3390/polym13101583
A review on silica aerogel-based materials for acoustic applications
Mazrouei-Sebdani, Z., Begum, H., Schoenwald, S., Horoshenkov, K. V., & Malfait, W. J. (2021). A review on silica aerogel-based materials for acoustic applications. Journal of Non-Crystalline Solids, 562, 120770 (17 pp.). https://doi.org/10.1016/j.jnoncrysol.2021.120770
Chemistry of chitosan aerogels: three-ditensional pore control for tailored applications
Takeshita, S., Zhao, S., Malfait, W. J., & Koebel, M. M. (2021). Chemistry of chitosan aerogels: three-ditensional pore control for tailored applications. Angewandte Chemie International Edition, 60(18), 9828-9851. https://doi.org/10.1002/anie.202003053
Transparent, aldehyde-free chitosan aerogel
Takeshita, S., Zhao, S., & Malfait, W. J. (2021). Transparent, aldehyde-free chitosan aerogel. Carbohydrate Polymers, 251, 117089 (8 pp.). https://doi.org/10.1016/j.carbpol.2020.117089
The acoustical properties of tetraethyl orthosilicate based granular silica aerogels
Begum, H., Horoshenkov, K. V., Conte, M., Malfait, W. J., Zhao, S., Koebel, M. M., … Venegas, R. (2021). The acoustical properties of tetraethyl orthosilicate based granular silica aerogels. Journal of the Acoustical Society of America, 149(6), 4149-4158. https://doi.org/10.1121/10.0005200
Aerogel spring-back correlates with strain recovery: effect of silica concentration and aging
Sivaraman, D., Zhao, S., Iswar, S., Lattuada, M., & Malfait, W. J. (2021). Aerogel spring-back correlates with strain recovery: effect of silica concentration and aging. Advanced Engineering Materials. https://doi.org/10.1002/adem.202100376
Influence of 1D and 2D carbon nanostructures in silica-based aerogels
Lamy-Mendes, A., Malfait, W. J., Sadeghpour, A., Girão, A. V., Silva, R. F., & Durães, L. (2021). Influence of 1D and 2D carbon nanostructures in silica-based aerogels. Carbon, 180, 146-162. https://doi.org/10.1016/j.carbon.2021.05.004
Dense and strong, but superinsulating silica aerogel
Iswar, S., Galmarini, S., Bonanomi, L., Wernery, J., Roumeli, E., Nimalshantha, S., … Malfait, W. J. (2021). Dense and strong, but superinsulating silica aerogel. Acta Materialia, 213, 116959 (9 pp.). https://doi.org/10.1016/j.actamat.2021.116959
A systematic study on bio-based hybrid aerogels made of tannin and silica
Koopmann, A. K., Malfait, W. J., Sepperer, T., & Huesing, N. (2021). A systematic study on bio-based hybrid aerogels made of tannin and silica. Materials, 14(18), 5231 (17 pp.). https://doi.org/10.3390/ma14185231
Bromine speciation and partitioning in slab-derived aqueous fluids and silicate melts and implications for halogen transfer in subduction zones
Louvel, M., Sanchez-Valle, C., Malfait, W. J., Pokrovski, G. S., Borca, C. N., & Grolimund, D. (2020). Bromine speciation and partitioning in slab-derived aqueous fluids and silicate melts and implications for halogen transfer in subduction zones. Solid Earth, 11(4), 1145-1161. https://doi.org/10.5194/se-11-1145-2020
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
Solvents, CO<sub>2</sub> and biopolymers: structure formation in chitosan aerogel
Takeshita, S., Sadeghpour, A., Sivaraman, D., Zhao, S., & Malfait, W. J. (2020). Solvents, CO2 and biopolymers: structure formation in chitosan aerogel. Carbohydrate Polymers, 247, 116680 (9 pp.). https://doi.org/10.1016/j.carbpol.2020.116680
Silica aerogels with tailored chemical functionality
Li, Z., Zhao, S., Koebel, M. M., & Malfait, W. J. (2020). Silica aerogels with tailored chemical functionality. Materials and Design, 193, 108833 (12 pp.). https://doi.org/10.1016/j.matdes.2020.108833
Phase transfer agents facilitate the production of superinsulating silica aerogel powders by simultaneous hydrophobization and solvent- and ion-exchange
Zhao, S., Stojanovic, A., Angelica, E., Emery, O., Rentsch, D., Pauer, R., … Malfait, W. J. (2020). Phase transfer agents facilitate the production of superinsulating silica aerogel powders by simultaneous hydrophobization and solvent- and ion-exchange. Chemical Engineering Journal, 381, 122421 (10 pp.). https://doi.org/10.1016/j.cej.2019.122421
Strong, machinable and insulating chitosan-urea aerogels: towards ambient pressure drying of biopolymer aerogel monoliths
Guerrero Alburquerque, N., Zhao, S., Adilien, N., Koebel, M. M., Lattuada, M., & Malfait, W. J. (2020). Strong, machinable and insulating chitosan-urea aerogels: towards ambient pressure drying of biopolymer aerogel monoliths. ACS Applied Materials and Interfaces, 12(19), 22037-22049. https://doi.org/10.1021/acsami.0c03047
Ambient pressure drying of silica aerogels after hydrophobization with mono-, di- and tri-functional silanes and mixtures thereof
Stojanovic, A., Comesaña, S. P., Rentsch, D., Koebel, M. M., & Malfait, W. J. (2019). Ambient pressure drying of silica aerogels after hydrophobization with mono-, di- and tri-functional silanes and mixtures thereof. Microporous and Mesoporous Materials, 284, 289-295. https://doi.org/10.1016/j.micromeso.2019.04.038
Granular aerogel preparation
Koebel, M. M., Zhao, S., & Malfait, W. J. (2019). Granular aerogel preparation. In C. Buratti (Ed.), Materials science and technologies. Translucent silica aerogel: properties, preparation and applications (pp. 31-59). Nova Science Publishers.
Three routes to superinsulating silica aerogel powder
Stojanovic, A., Zhao, S., Angelica, E., Malfait, W. J., & Koebel, M. M. (2019). Three routes to superinsulating silica aerogel powder. Journal of Sol-Gel Science and Technology, 90, 57-66. https://doi.org/10.1007/s10971-018-4879-4
Formation of nanofibrous structure in biopolymer aerogel during supercritical CO<sub>2</sub> processing: the case of chitosan aerogel
Takeshita, S., Sadeghpour, A., Malfait, W. J., Konishi, A., Otake, K., & Yoda, S. (2019). Formation of nanofibrous structure in biopolymer aerogel during supercritical CO2 processing: the case of chitosan aerogel. Biomacromolecules, 20(5), 2051-2057. https://doi.org/10.1021/acs.biomac.9b00246
The influence of drying and calcination on surface chemistry, pore structure and mechanical properties of hierarchically organized porous silica monoliths
Putz, F., Waag, A., Balzer, C., Braxmeier, S., Elsaesser, M. S., Ludescher, L., … Hüsing, N. (2019). The influence of drying and calcination on surface chemistry, pore structure and mechanical properties of hierarchically organized porous silica monoliths. Microporous and Mesoporous Materials, 288, 109578 (10 pp.). https://doi.org/10.1016/j.micromeso.2019.109578