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Frustrated octahedral tilting distortion in the incommensurately modulated Li<SUB>3</SUB><I><SUB>x</SUB></I>Nd<SUB>2/3–</SUB><I><SUB>x</SUB></I>TiO<SUB>3</SUB> perovskites
Abakumov, A. M., Erni, R., Tsirlin, A. A., Rossell, M. D., Batuk, D., Nénert, G., & Van Tendeloo, G. (2013). Frustrated octahedral tilting distortion in the incommensurately modulated Li3xNd2/3–xTiO3 perovskites. Chemistry of Materials, 25(13), 2670-2683. https://doi.org/10.1021/cm4012052
Controlling tetragonality and crystalline orientation in BaTiO<SUB>3</SUB> nano-layers grown on Si
Abel, S., Sousa, M., Rossel, C., Caimi, D., Rossell, M. D., Erni, R., … Marchiori, C. (2013). Controlling tetragonality and crystalline orientation in BaTiO3 nano-layers grown on Si. Nanotechnology, 24(28), 285701 (7 pp.). https://doi.org/10.1088/0957-4484/24/28/285701
A strong electro-optically active lead-free ferroelectric integrated on silicon
Abel, S., Stöferle, T., Marchiori, C., Rossel, C., Rossell, M. D., Erni, R., … Fompeyrine, J. (2013). A strong electro-optically active lead-free ferroelectric integrated on silicon. Nature Communications, 4, 1671 (6 pp.). https://doi.org/10.1038/ncomms2695
Virtual fruit tissue generation based on cell growth modelling
Abera, M. K., Fanta, S. W., Verboven, P., Ho, Q. T., Carmeliet, J., & Nicolai, B. M. (2013). Virtual fruit tissue generation based on cell growth modelling. Food and Bioprocess Technology, 6(4), 859-869. https://doi.org/10.1007/s11947-011-0775-4
3D virtual pome fruit tissue generation based on cell growth modeling
Abera, M. K., Verboven, P., Herremans, E., Defraeye, T., Fanta, S. W., Ho, Q. T., … Nicolai, B. M. (2014). 3D virtual pome fruit tissue generation based on cell growth modeling. Food and Bioprocess Technology, 7(2), 542-555. https://doi.org/10.1007/s11947-013-1127-3
Investigating the role of polymer size on ionic conductivity in free-standing hyperbranched polyelectrolyte membranes
Abrahamsson, T., Vagin, M., Seitanidou, M., Roy, A., Phopase, J., Petsagkourakis, I., … Simon, D. T. (2021). Investigating the role of polymer size on ionic conductivity in free-standing hyperbranched polyelectrolyte membranes. Polymer, 223, 123664 (11 pp.). https://doi.org/10.1016/j.polymer.2021.123664
European country-specific probabilistic assessment of nanomaterial flows towards landfilling, incineration and recycling
Adam, V., & Nowack, B. (2017). European country-specific probabilistic assessment of nanomaterial flows towards landfilling, incineration and recycling. Environmental Science: Nano, 4(10), 1961-1973. https://doi.org/10.1039/C7EN00487G
Considering the forms of released engineered nanomaterials in probabilistic material flow analysis
Adam, V., Caballero-Guzman, A., & Nowack, B. (2018). Considering the forms of released engineered nanomaterials in probabilistic material flow analysis. Environmental Pollution, 243, 17-27. https://doi.org/10.1016/j.envpol.2018.07.108
Integrated dynamic probabilistic material flow analysis of engineered materials in all European countries
Adam, V., Wu, Q., & Nowack, B. (2021). Integrated dynamic probabilistic material flow analysis of engineered materials in all European countries. NanoImpact, 22, 100312 (11 pp.). https://doi.org/10.1016/j.impact.2021.100312
The 2022 Plasma Roadmap: low temperature plasma science and technology
Adamovich, I., Agarwal, S., Ahedo, E., Alves, L. L., Baalrud, S., Babaeva, N., … von Woedtke, T. (2022). The 2022 Plasma Roadmap: low temperature plasma science and technology. Journal of Physics D: Applied Physics, 55(37), 373001 (55 pp.). https://doi.org/10.1088/1361-6463/ac5e1c
On-demand cross-linkable bottlebrush polymers for voltage-driven artificial muscles
Adeli, Y., Owusu, F., Nüesch, F. A., & Opris, D. M. (2023). On-demand cross-linkable bottlebrush polymers for voltage-driven artificial muscles. ACS Applied Materials and Interfaces, 15(16), 20410-20420. https://doi.org/10.1021/acsami.2c23026
How can LCA include prospective elements to assess emerging technologies and system transitions? The 76th LCA Discussion Forum on Life Cycle Assessment, 19 November 2020
Adrianto, L. R., van der Hulst, M. K., Tokaya, J. P., Arvidsson, R., Blanco, C. F., Caldeira, C., … Hauck, M. (2021). How can LCA include prospective elements to assess emerging technologies and system transitions? The 76th LCA Discussion Forum on Life Cycle Assessment, 19 November 2020. International Journal of Life Cycle Assessment, 26(8), 1541-1544. https://doi.org/10.1007/s11367-021-01934-w
Gold nanoparticle distribution in advanced in vitro and ex vivo human placental barrier models
Aengenheister, L., Dietrich, D., Sadeghpour, A., Manser, P., Diener, L., Wichser, A., … Buerki-Thurnherr, T. (2018). Gold nanoparticle distribution in advanced in vitro and ex vivo human placental barrier models. Journal of Nanobiotechnology, 16(1), 79 (16 pp.). https://doi.org/10.1186/s12951-018-0406-6
An advanced human <i>in vitro</i> co-culture model for translocation studies across the placental barrier
Aengenheister, L., Keevend, K., Muoth, C., Schönenberger, R., Diener, L., Wick, P., & Buerki-Thurnherr, T. (2018). An advanced human in vitro co-culture model for translocation studies across the placental barrier. Scientific Reports, 8(1), 5388 (12 pp.). https://doi.org/10.1038/s41598-018-23410-6
Global nature run data with realistic high-resolution carbon weather for the year of the Paris Agreement
Agustí-Panareda, A., McNorton, J., Balsamo, G., Baier, B. C., Bousserez, N., Boussetta, S., … Walther, S. (2022). Global nature run data with realistic high-resolution carbon weather for the year of the Paris Agreement. Scientific Data, 9, 160 (13 pp.). https://doi.org/10.1038/s41597-022-01228-2
Liquid phase studies of nanomaterials
Ahmad, N., Keller, D., Rossell, M. D., & Erni, R. (2018). Liquid phase studies of nanomaterials. Chimia, 72(10), 727. https://doi.org/10.2533/chimia.2018.727
Template-assisted&lt;em&gt; in situ s&lt;/em&gt;ynthesis of Ag@Au bimetallic nanostructures employing liquid-phase transmission electron microscopy
Ahmad, N., Bon, M., Passerone, D., & Erni, R. (2019). Template-assisted in situ synthesis of Ag@Au bimetallic nanostructures employing liquid-phase transmission electron microscopy. ACS Nano, 13, 13333-13342. https://doi.org/10.1021/acsnano.9b06614
Genesis, challenges and opportunities for colloidal lead halide perovskite nanocrystals
Akkerman, Q. A., Rainò, G., Kovalenko, M. V., & Manna, L. (2018). Genesis, challenges and opportunities for colloidal lead halide perovskite nanocrystals. Nature Materials, 17, 394-405. https://doi.org/10.1038/s41563-018-0018-4
Release of TiO<SUB>2</SUB> from paints containing pigment-TiO<SUB>2</SUB> or nano-TiO<SUB>2</SUB> by weathering
Al-Kattan, A., Wichser, A., Vonbank, R., Brunner, S., Ulrich, A., Zuin, S., & Nowack, B. (2013). Release of TiO2 from paints containing pigment-TiO2 or nano-TiO2 by weathering. Environmental Science: Processes and Impacts, 15(12), 2186-2193. https://doi.org/10.1039/C3EM00331K
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
 

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