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  • (-) Empa Laboratories = 312 Building Energy Materials and Components
  • (-) Publication Year = 2015 - 2021
  • (-) Journal ≠ ACS Applied Nano Materials
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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
Seaweed-derived alginate-cellulose nanofiber aerogel for insulation applications
Berglund, L., Nissilä, T., Sivaraman, D., Komulainen, S., Telkki, V. V., & Oksman, K. (2021). Seaweed-derived alginate-cellulose nanofiber aerogel for insulation applications. ACS Applied Materials and Interfaces, 13(29), 34899-34909. https://doi.org/10.1021/acsami.1c07954
Printed aerogels: chemistry, processing, and applications
Feng, J., Su, B. L., Xia, H., Zhao, S., Gao, C., Wang, L., … Hasan, T. (2021). Printed aerogels: chemistry, processing, and applications. Chemical Society Reviews, 50(6), 3842-3888. https://doi.org/10.1039/c9cs00757a
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
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
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
Solid state chemistry: computational chemical analysis for materials science
Lora da Silva, E., Galmarini, S., Maurizi, L., dos Santos, M. J. C., Yang, T., Cooke, D., & Molinari, M. (2021). Solid state chemistry: computational chemical analysis for materials science. In P. B. Wilson & M. Grootveld (Eds.), Theoretical and computational chemistry: Vol. 20. Computational techniques for analytical chemistry and bioanalysis (pp. 287-334). https://doi.org/10.1039/9781788015882-00287
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
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
Tailoring the hydrophobicity of wrinkled silica nanoparticles and of the adsorption medium as a strategy for immobilizing lipase: an efficient catalyst for biofuel production
Pota, G., Bifulco, A., Parida, D., Zhao, S., Rentsch, D., Amendola, E., … Costantini, A. (2021). Tailoring the hydrophobicity of wrinkled silica nanoparticles and of the adsorption medium as a strategy for immobilizing lipase: an efficient catalyst for biofuel production. Microporous and Mesoporous Materials, 328, 111504 (11 pp.). https://doi.org/10.1016/j.micromeso.2021.111504
Cognitive biases in building energy decisions
Rakitta, M., & Wernery, J. (2021). Cognitive biases in building energy decisions. Sustainability, 13(17), 9960 (21 pp.). https://doi.org/10.3390/su13179960
Robust barium phosphonate metal–organic frameworks synthesized under aqueous conditions
Salmeia, K. A., Dolabella, S., Parida, D., Frankcombe, T. J., Afaneh, A. T., Cordova, K. E., … Neels, A. (2021). Robust barium phosphonate metal–organic frameworks synthesized under aqueous conditions. ACS Materials Letters, 3, 1010-1015. https://doi.org/10.1021/acsmaterialslett.1c00275
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, 23(10), 2100376 (12 pp.). https://doi.org/10.1002/adem.202100376
Development and validation of retention models in supercritical fluid chromatography for impregnation process design
Sun, M., Ülker, Z., Chen, Z., Sivaraman, D., Johannsen, M., Erkey, C., & Gurikov, P. (2021). Development and validation of retention models in supercritical fluid chromatography for impregnation process design. Applied Sciences, 11(15), 7106 (16 pp.). https://doi.org/10.3390/app11157106
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
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
The economics of thermal superinsulation in buildings
Wernery, J., Mancebo, F., Malfait, W. J., O'Connor, M., & Jelle, B. P. (2021). The economics of thermal superinsulation in buildings. Energy and Buildings, 253, 111506 (18 pp.). https://doi.org/10.1016/j.enbuild.2021.111506
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.
 

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