Articles dans des revues avec comité de lecture (137)
  1. 24. Xiang, Y., Barbosa, R., & Kruse, N. (2014). Higher alcohols through CO hydrogenation over CoCu catalysts: Influence of precursor activation. ACS Catalysis, 4(8), 2792-2800. doi:10.1021/cs500696z
  2. 25. Chenakin, S., Vasylyev, M., Makeeva, I., & Kruse, N. (2014). XPS/ToF-SIMS characterization of TiO2 supported Au nanoparticles: Effect of catalytic CO oxidation. Metallofizika i novejaie tehnologii, 36(5), 597-611.
  3. 26. Xiang, Y., Chitry, V., & Kruse, N. (2013). Selective Catalytic CO Hydrogenation to Short- and Long-Chain C 2+ Alcohols. Catalysis letters, 143(9), 936-941. doi:10.1007/s10562-013-1060-0
  4. 27. Beaumont, S. K., Alayoglu, S., Pushkarev, V. V. V., Somorjai, G. A., Liu, Z., & Kruse, N. (2013). Exploring surface science and restructuring in reactive atmospheres of colloidally prepared bimetallic CuNi and CuCo nanoparticles on SiO2in situ using ambient pressure X-ray photoelectron spectroscopy. Faraday discussions, 162, 31-44. doi:10.1039/c2fd20145c
  5. 28. Xiang, Y., Chitry, V., Liddicoat, P., Felfer, P., Cairney, J., Ringer, S., & Kruse, N. (2013). Long-chain terminal alcohols through catalytic CO hydrogenation. Journal of the American Chemical Society, 135(19), 7114-7117. doi:10.1021/ja402512r
  6. 29. Wang, Y., Barcaro, G., Negreiros, F. F., Visart de Bocarmé, T., Moors, M., Kruse, N., Hou, M., & Fortunelli, A. (2013). Adsorption-induced restructuring and early stages of carbon-nanotube growth on ni nanoparticles. Chemistry, 19(1), 406-413. doi:10.1002/chem.201201331
  7. 30. Alayoglu, S., Beaumont, S. K., Melaet, G., Lindeman, A. A., Musselwhite, N., Brooks, C. C., Marcus, M. M., Guo, J., Liu, Z., Kruse, N., & Somorjai, G. A. (2013). Surface composition changes of redox stabilized bimetallic CoCu nanoparticles supported on silica under H2 and O2 Atmospheres and during reaction between CO2 and H2: In situ X-ray spectroscopic characterization. The Journal of Physical Chemistry Part C: Nanomaterials and Interfaces, 117(42), 21803-21809. doi:10.1021/jp405745n
  8. 31. Beketov, G., Chenakin, S., Kruse, N., Heinrichs, B., & Pirard, J.-P. (2013). XPS structural characterization of Pd/SiO2 catalysts prepared by cogelation. Applied surface science, 287, 293-298. doi:10.1016/j.apsusc.2013.09.145
  9. 32. Schweicher, J., Bundhoo, A., & Kruse, N. (2012). Hydrocarbon chain lengthening in catalytic CO hydrogenation: evidence for a CO-insertion mechanism. Journal of the American Chemical Society, 134(39), 16135-16138. doi:10.1021/ja3068484
  10. 33. Frey, K., Iablokov, V., Szukiewicz, R., Chenakin, S., Kruse, N., Sàfràn, G., Osán, J., & Sajó, I. (2012). Nanostructured MnO x as highly active catalyst for CO oxidation. Journal of catalysis, 287, 30-36. doi:10.1016/j.jcat.2011.11.014
  11. 34. Iablokov, V., Beaumont, S. K., Alayoglu, S., Pushkarev, V. V. V., Specht, C., Gao, J., Alivisatos, A. P., Kruse, N., & Somorjai, G. A. (2012). Size-Controlled Model Co Nanoparticle Catalysts for CO2 Hydrogenation: Synthesis, Characterization, and Catalytic Reactions. Nano letters, 12(6), 3091. doi:10.1021/nl300973b
  12. 35. Frey, K., Iablokov, V., Sàfràn, G., Osán, J., Sajó, I., Szukiewicz, R., Chenakin, S., & Kruse, N. (2012). Nanostructured MnOx as highly active catalyst for CO oxidation. Journal of catalysis, 287, 30.
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