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Template-free synthesis of hybrid silica nanoparticle with functionalized mesostructure for efficient methylene blue removal
Parida, D., Salmeia, K. A., Sadeghpour, A., Zhao, S., Maurya, A. K., Assaf, K. I., … Gaan, S. (2021). Template-free synthesis of hybrid silica nanoparticle with functionalized mesostructure for efficient methylene blue removal. Materials and Design, 201, 109494 (10 pp.). https://doi.org/10.1016/j.matdes.2021.109494
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
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
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
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
Flexible and ultrathin waterproof cellular membranes based on high-conjunction metal-wrapped polymer nanofibers for electromagnetic interference shielding
Zeng, Z., Jiang, F., Yue, Y., Han, D., Lin, L., Zhao, S., … Wang, J. (2020). Flexible and ultrathin waterproof cellular membranes based on high-conjunction metal-wrapped polymer nanofibers for electromagnetic interference shielding. Advanced Materials, 32(19), 1908496 (7 pp.). https://doi.org/10.1002/adma.201908496
Polymer-assisted fabrication of silver nanowire cellular monoliths: toward hydrophobic and ultraflexible high-performance electromagnetic interference shielding materials
Zeng, Z., Li, W., Wu, N., Zhao, S., & Lu, X. (2020). Polymer-assisted fabrication of silver nanowire cellular monoliths: toward hydrophobic and ultraflexible high-performance electromagnetic interference shielding materials. ACS Applied Materials and Interfaces, 12(34), 38584-38592. https://doi.org/10.1021/acsami.0c10492
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
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
Durability of silica aerogel cementitious composites - freeze-thaw resistance, water resistance and drying shrinkage
Zhu, P., Yu, S., Cheng, C., Zhao, S., & Xu, H. (2020). Durability of silica aerogel cementitious composites - freeze-thaw resistance, water resistance and drying shrinkage. Advances in Cement Research, 32(12), 527-536. https://doi.org/10.1680/jadcr.18.00145
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
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
Reinforced and superinsulating silica aerogel through in situ cross-linking with silane terminated prepolymers
Iswar, S., Snellings, G. M. B. F., Zhao, S., Erni, R., Bahk, Y. K., Wang, J., … Malfait, W. J. (2018). Reinforced and superinsulating silica aerogel through in situ cross-linking with silane terminated prepolymers. Acta Materialia, 147, 322-328. https://doi.org/10.1016/j.actamat.2018.01.031
High efficiency thermoacoustic loudspeaker made with a silica aerogel substrate
La Torraca, P., Bobinger, M., Pavan, P., Becherer, M., Zhao, S., Koebel, M., … Larcher, L. (2018). High efficiency thermoacoustic loudspeaker made with a silica aerogel substrate. Advanced Materials Technologies, 3(8), 1800139 (6 pp.). https://doi.org/10.1002/admt.201800139
Facile synthesis of resorcinol-melamine-formaldehyde based carbon xerogel
Muehlemann, S. E., Huber, L., Zhao, S., Matam, S. K., & Koebel, M. M. (2018). Facile synthesis of resorcinol-melamine-formaldehyde based carbon xerogel. In Vol. 5. Materials today: proceedings (pp. 13776-13784). https://doi.org/10.1016/j.matpr.2018.02.018
Silica aerogel–epoxy nanocomposites: understanding epoxy reinforcement in terms of aerogel surface chemistry and epoxy–silica interface compatibility
Salimian, S., Zadhoush, A., Talebi, Z., Fischer, B., Winiger, P., Winnefeld, F., … Malfait, W. J. (2018). Silica aerogel–epoxy nanocomposites: understanding epoxy reinforcement in terms of aerogel surface chemistry and epoxy–silica interface compatibility. ACS Applied Nano Materials, 1(8), 4179-4189. https://doi.org/10.1021/acsanm.8b00941
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
Biopolymer aerogels and foams: chemistry, properties, and applications
Zhao, S., Malfait, W. J., Guerrero-Alburquerque, N., Koebel, M. M., & Nyström, G. (2018). Biopolymer aerogels and foams: chemistry, properties, and applications. Angewandte Chemie International Edition, 57(26), 7580-7608. https://doi.org/10.1002/anie.201709014