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"Nanobeschichtungen" auf Holz – Erfahrungen im Außenbereich
Künniger, T., & Fischer, A. (2011). "Nanobeschichtungen" auf Holz – Erfahrungen im Außenbereich. In H. Venzmer (Ed.), Altbausanierung: Vol. 5. Oberflächentechnologien und Bautenschutz. 21. Hanseatische Sanierungstage vom 11. bis 13. November 2010 in Rostock-Warnemünde. Vorträge (pp. 111-120). Beuth.
"Oh yes, oh yes, these are the atoms!" A personal recollection from the times of the invention of the STM
Rieder, K. H. (2012). "Oh yes, oh yes, these are the atoms!" A personal recollection from the times of the invention of the STM. Chimia, 66(1-2), 8-9. https://doi.org/10.2533/chimia.2012.8
"Sweat Management" - optimale Feuchte- und Wärmetransporteigenschaften von Textilschichten
Rossi, R. (2001). "Sweat Management" - optimale Feuchte- und Wärmetransporteigenschaften von Textilschichten. In W. Muster & K. Schläpfer (Eds.), Nachhaltige Material- und Systemtechnik. Festschrift zum 65. Geburtstag von Fritz Eggimann (pp. 89-98). Empa.
"Thou shalt not make unto thee any graven image": some remarks on x-ray scattering and materials science
Braun, A. (2018). "Thou shalt not make unto thee any graven image": some remarks on x-ray scattering and materials science. Microscopy and Microanalysis, 24(S2), 526-528. https://doi.org/10.1017/S1431927618014848
'Green' Cr(<sub>III</sub>)–glycine electrolyte for the production of FeCrNi coatings: electrodeposition mechanisms and role of by-products in terms of coating composition and microstructure
Bertero, E., Manzano, C. V., Pellicer, E., Sort, J., Ulfig, R. M., Mischler, S., … Philippe, L. (2019). 'Green' Cr(III)–glycine electrolyte for the production of FeCrNi coatings: electrodeposition mechanisms and role of by-products in terms of coating composition and microstructure. RSC Advances, 9(44), 25762-25775. https://doi.org/10.1039/C9RA04262H
'memory steel' for shear reinforcement of concrete structures
Shahverdi, M., Czaderski, C., & Michels, J. (2019). 'memory steel' for shear reinforcement of concrete structures. In SMAR proceedings. Proceedings of SMAR 2019, fifth conference on smart monitoring, assessment and rehabilitation of civil structures (p. (8 pp.).
<em>Aminobacter</em> sp. MSH1 mineralises the groundwater micropollutant 2,6-dichlorobenzamide through a unique chlorobenzoate catabolic pathway
Raes, B., Horemans, B., Rentsch, D., T'Syen, J., Ghequire, M. G. K., De Mot, R., … Springael, D. (2019). Aminobacter sp. MSH1 mineralises the groundwater micropollutant 2,6-dichlorobenzamide through a unique chlorobenzoate catabolic pathway. Environmental Science and Technology, 53(17), 10146-10156. https://doi.org/10.1021/acs.est.9b02021
<em>In operando</em> studies of CO oxidation on epitaxial SrCoO<sub>2.5+<em>δ</em></sub> thin films
Folkman, C. M., Chang, S. H., Jeen, H., Perret, E., Baldo, P. M., Thompson, C., … Fong, D. D. (2019). In operando studies of CO oxidation on epitaxial SrCoO2.5+δ thin films. APL Materials, 7(8), 081126 (6 pp.). https://doi.org/10.1063/1.5108957
<em>In situ</em> atomic force microscopy depth-corrected three-dimensional focused ion beam based time-of-flight secondary ion mass spectroscopy: spatial resolution, surface roughness, oxidation
Pillatsch, L., Kalácska, S., Maeder, X., & Michler, J. (2021). In situ atomic force microscopy depth-corrected three-dimensional focused ion beam based time-of-flight secondary ion mass spectroscopy: spatial resolution, surface roughness, oxidation. Microscopy and Microanalysis, 27(1), 65-73. https://doi.org/10.1017/S1431927620024678
<em>In situ</em> element-specific and time-resolved investigation of micro-corrosion processes
Homazava, N., Ulrich, A., & Krähenbühl, U. (2008). In situ element-specific and time-resolved investigation of micro-corrosion processes. Chimia, 62(6), 530. https://doi.org/10.2533/chimia.2008.530
<em>In situ</em> oxidation studies of Cu thin films: growth kinetics and oxide phase evolution
Unutulmazsoy, Y., Cancellieri, C., Chiodi, M., Siol, S., Lin, L., & Jeurgens, L. P. H. (2020). In situ oxidation studies of Cu thin films: growth kinetics and oxide phase evolution. Journal of Applied Physics, 127(6), 065101 (11 pp.). https://doi.org/10.1063/1.5131516
<em>In vitro</em> investigations of a novel wound dressing concept based on biodegradable polyurethane
Rottmar, M., Richter, M., Mäder, X., Grieder, K., Nuss, K., Karol, A., … Bruinink, A. (2015). In vitro investigations of a novel wound dressing concept based on biodegradable polyurethane. Science and Technology of Advanced Materials, 16(3), 034606 (10 pp.). https://doi.org/10.1088/1468-6996/16/3/034606
<em>In vitro</em> research reproducibility: keeping up high standards
Hirsch, C., & Schildknecht, S. (2019). In vitro research reproducibility: keeping up high standards. Frontiers in Pharmacology, 10, 1484 (9 pp.). https://doi.org/10.3389/fphar.2019.01484
<em>In vivo</em> confirmation of hydration-induced changes in human-skin thickness, roughness and interaction with the environment
Dąbrowska, A. K., Adlhart, C., Spano, F., Rotaru, G. M., Derler, S., Zhai, L., … Rossi, R. M. (2016). In vivo confirmation of hydration-induced changes in human-skin thickness, roughness and interaction with the environment. Biointerphases: A Journal of Biomaterials and Biological Interfaces, 11(3), 031015 (10 pp.). https://doi.org/10.1116/1.4962547
<em>Nido</em>-Borate/<em>Closo</em>-borate mixed-anion electrolytes for all-solid-state batteries
Payandeh, S. H., Asakura, R., Avramidou, P., Rentsch, D., Łodziana, Z., Černý, R., … Battaglia, C. (2020). Nido-Borate/Closo-borate mixed-anion electrolytes for all-solid-state batteries. Chemistry of Materials, 32, 1101-1110. https://doi.org/10.1021/acs.chemmater.9b03933
<em>Operando </em>electrochemical study of charge carrier processes in water splitting photoanodes protected by atomic layer deposited TiO<sub>2</sub>
Cui, W., Moehl, T., Siol, S., & Tilley, S. D. (2019). Operando electrochemical study of charge carrier processes in water splitting photoanodes protected by atomic layer deposited TiO2. Sustainable Energy and Fuels, 3(11), 3085-3092. https://doi.org/10.1039/C9SE00399A
<sup>1</sup>H,<sup>13</sup>C-HSQC HRMAS-NMR as a tool for investigating the quality of Fmoc-AA-Wang resins for SPPS
Stähelin, C., Dick, F., Ferrari, S., & Rentsch, D. (2009). 1H,13C-HSQC HRMAS-NMR as a tool for investigating the quality of Fmoc-AA-Wang resins for SPPS. Biopolymers: Vol. 92. (p. 372 (1 pp.). Presented at the 21st american peptide society symposium. Wiley.
"Solar fitness and wellness" - a unique design for sustainable wellness technologies
Weber, R. R., & Baldini, L. (2019). "Solar fitness and wellness" - a unique design for sustainable wellness technologies. 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. 012097 (6 p.). https://doi.org/10.1088/1742-6596/1343/1/012097
(Re)Conceptualizing decision-making tools in a risk governance framework for emerging technologies - the case of nanomaterials
Mullins, M., Himly, M., Rodríguez Llopis, I., Furxhi, I., Hofer, S., Hofstätter, N., … Drobne, D. (2023). (Re)Conceptualizing decision-making tools in a risk governance framework for emerging technologies - the case of nanomaterials. Environment Systems and Decisions, 43(2), 3-15. https://doi.org/10.1007/s10669-022-09870-2
1,3-Diacetyl-4-imidazolin-2-one
Crockett, R., Forrester, A. R., & Howie, R. A. (2004). 1,3-Diacetyl-4-imidazolin-2-one. Acta Crystallographica Section E: Crystallographic Communications, 60(4), 558-560. https://doi.org/10.1107/S1600536804005756
 

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