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Thermally stable nanotwins: new heights for Cu mechanics
Edwards, T. E. J., Rohbeck, N., Huszár, E., Thomas, K., Putz, B., Polyakov, M. N., … Michler, J. (2022). Thermally stable nanotwins: new heights for Cu mechanics. Advanced Science, 9(34), 2203544 (10 pp.). https://doi.org/10.1002/advs.202203544
High-quality graphene using boudouard reaction
Grebenko, A. K., Krasnikov, D. V., Bubis, A. V., Stolyarov, V. S., Vyalikh, D. V., Makarova, A. A., … Nasibulin, A. G. (2022). High-quality graphene using boudouard reaction. Advanced Science, 9(12), 2200217 (12 pp.). https://doi.org/10.1002/advs.202200217
High-purity copper structures from a perfluorinated copper carboxylate using focused electron beam induced deposition and post-purification
Berger, L., Jurczyk, J., Madajska, K., Edwards, T. E. J., Szymańska, I., Hoffmann, P., & Utke, I. (2020). High-purity copper structures from a perfluorinated copper carboxylate using focused electron beam induced deposition and post-purification. ACS Applied Electronic Materials, 2(7), 1989-1996. https://doi.org/10.1021/acsaelm.0c00282
Synthesis of copper-based multi-walled carbon nanotube composites
Domagała, K., Borlaf, M., Kata, D., & Graule, T. (2020). Synthesis of copper-based multi-walled carbon nanotube composites. Archives of Metallurgy and Materials, 65(1), 157-162. https://doi.org/10.24425/amm.2019.131109
Thermal stability of size-selected copper nanoparticles: effect of size, support and CO<sub>2</sub> hydrogenation atmosphere
Li, M., Borsay, A., Dakhchoune, M., Zhao, K., Luo, W., & Züttel, A. (2020). Thermal stability of size-selected copper nanoparticles: effect of size, support and CO2 hydrogenation atmosphere. Applied Surface Science, 510, 145439 (9 pp.). https://doi.org/10.1016/j.apsusc.2020.145439
Activation of copper species on carbon nitride for enhanced activity in the arylation of amines
Vorobyeva, E., Gerken, V. C., Mitchell, S., Sabadell-Rendón, A., Hauert, R., Xi, S., … Pérez-Ramírez, J. (2020). Activation of copper species on carbon nitride for enhanced activity in the arylation of amines. ACS Catalysis, 10(19), 11069-11080. https://doi.org/10.1021/acscatal.0c03164
Synergistic Cu/CeO&lt;sub&gt;2&lt;/sub&gt; carbon nanofiber catalysts for efficient CO&lt;sub&gt;2&lt;/sub&gt; electroreduction
Zong, X., Zhang, J., Zhang, J., Luo, W., Züttel, A., & Xiong, Y. (2020). Synergistic Cu/CeO2 carbon nanofiber catalysts for efficient CO2 electroreduction. Electrochemistry Communications, 114, 106716 (7 pp.). https://doi.org/10.1016/j.elecom.2020.106716
Detection of Cu&lt;sup&gt;2+&lt;/sup&gt; ions with GGH peptide realized with Si-nanoribbon ISFET
Synhaivska, O., Mermoud, Y., Baghernejad, M., Alshanski, I., Hurevich, M., Yitzchaik, S., … Calame, M. (2019). Detection of Cu2+ ions with GGH peptide realized with Si-nanoribbon ISFET. Sensors, 19(18), 4022 (10 pp.). https://doi.org/10.3390/s19184022
A novel copper precursor for electron beam induced deposition
Haverkamp, C., Sarau, G., Polyakov, M. N., Utke, I., Puydinger dos Santos, M. V., Christiansen, S., & Höflich, K. (2018). A novel copper precursor for electron beam induced deposition. Beilstein Journal of Nanotechnology, 9(1), 1220-1227. https://doi.org/10.3762/bjnano.9.113
Selective and stable electroreduction of CO&lt;sub&gt;2&lt;/sub&gt; to CO at the copper/indium interface
Luo, W., Xie, W., Mutschler, R., Oveisi, E., De Gregorio, G. L., Buonsanti, R., & Züttel, A. (2018). Selective and stable electroreduction of CO2 to CO at the copper/indium interface. ACS Catalysis, 8(7), 6571-6581. https://doi.org/10.1021/acscatal.7b04457
Comparative study of post-growth annealing of Cu(hfac)<sub>2</sub>, Co<sub>2</sub>(CO)<sub>8</sub> and Me<sub>2</sub>Au(acac) metal precursors deposited by FEBID
Puydinger dos Santos, M. V., Szkudlarek, A., Rydosz, A., Guerra-Nuñez, C., Béron, F., Pirota, K. R., … Utke, I. (2018). Comparative study of post-growth annealing of Cu(hfac)2, Co2(CO)8 and Me2Au(acac) metal precursors deposited by FEBID. Beilstein Journal of Nanotechnology, 9, 91-101. https://doi.org/10.3762/bjnano.9.11
Spectroscopic characterization and photoactivity of SiO<em><sub>x</sub></em>-based films electrochemically grown on Cu surfaces
Krywko-Cendrowska, A., Marot, L., Philippe, L., Strawski, M., Meyer, E., & Szklarczyk, M. (2017). Spectroscopic characterization and photoactivity of SiOx-based films electrochemically grown on Cu surfaces. Journal of Applied Electrochemistry, 47(8), 917-930. https://doi.org/10.1007/s10800-017-1089-7
Microstructure and mechanical properties of metastable solid solution copper‐tungsten films
Thomas, K., Taylor, A. A., Raghavan, R., Chawla, V., Spolenak, R., & Michler, J. (2017). Microstructure and mechanical properties of metastable solid solution copper‐tungsten films. Thin Solid Films, 642, 82-89. https://doi.org/10.1016/j.tsf.2017.09.007
ICP materials trends in corrosion, soiling and air pollution (1987–2014)
Tidblad, J., Kreislová, K., Faller, M., de la Fuente, D., Yates, T., Verney-Carron, A., … Hans, U. (2017). ICP materials trends in corrosion, soiling and air pollution (1987–2014). Materials, 10(8), 969 (23 pp.). https://doi.org/10.3390/ma10080969
Enhanced reduction of CO<SUB>2</SUB> to CO over Cu–In electrocatalysts: Catalyst evolution is the key
Larrazábal, G. O., Martín, A. J., Mitchell, S., Hauert, R., & Pérez-Ramírez, J. (2016). Enhanced reduction of CO2 to CO over Cu–In electrocatalysts: Catalyst evolution is the key. ACS Catalysis, 6(9), 6265-6274. https://doi.org/10.1021/acscatal.6b02067
The effect of size on the strength of FCC metals at elevated temperatures: annealed copper
Wheeler, J. M., Kirchlechner, C., Micha, J. S., Michler, J., & Kiener, D. (2016). The effect of size on the strength of FCC metals at elevated temperatures: annealed copper. Philosophical Magazine, 96(32-34), 3379-3395. https://doi.org/10.1080/14786435.2016.1224945
Carbon–metal interfaces analyzed by aberration-corrected TEM: how copper and nickel nanoparticles interact with MWCNTs
Ilari, G. M., Hage, F. S., Zhang, Y., Rossell, M. D., Ramasse, Q. M., Niederberger, M., & Erni, R. (2015). Carbon–metal interfaces analyzed by aberration-corrected TEM: how copper and nickel nanoparticles interact with MWCNTs. Micron, 72, 52-58. https://doi.org/10.1016/j.micron.2015.03.004
Copper-based nanostructured coatings for low-temperature brazing applications
Lehmert, B., Janczak-Rusch, J., Pigozzi, G., Zuraw, P., La Mattina, F., Wojarski, L., … Jeurgens, L. P. H. (2015). Copper-based nanostructured coatings for low-temperature brazing applications. Materials Transactions, 56(7), 1015-1018. https://doi.org/10.2320/matertrans.MI201419
Probing surface properties and reaction intermediates during heterogeneous catalytic oxidation of acetaldehyde
Kydd, R., Teoh, W. Y., Scott, J., Ferri, D., & Amal, R. (2009). Probing surface properties and reaction intermediates during heterogeneous catalytic oxidation of acetaldehyde. ChemCatChem, 1(2), 286-294. https://doi.org/10.1002/cctc.200900099
Synthesis of silver and copper nanoparticle containing a-C:H by ion irradiation of polymers
Schwarz, F., Thorwarth, G., & Stritzker, B. (2009). Synthesis of silver and copper nanoparticle containing a-C:H by ion irradiation of polymers. Solid State Sciences, 11(10), 1819-1823. https://doi.org/10.1016/j.solidstatesciences.2009.05.012