Parties d'ouvrages collectifs (2)
  1. 1. Feringa, B., Surin, M., & Valkenier, H. (2024). From Molecules to Dynamic Supramolecular Systems: Discussions of Session 2 of the 26th International Solvay Conference in Chemistry. In K. Wüthrich, Feringa, L. Rongy, & A. De Wit (Eds.), Chemistry Challenges of the 21st Century. World Scientific. doi:10.1142/9789811282324_0014
  2. 2. Van Esch, J., Valkenier, H., Hartwig, S., & Hecht, S. (2007). Foldamers at Interfaces. In S. Hecht & I. Huc (Eds.), Foldamers: Structure, Properties, and Applications (pp. 403-426). Weinheim: Wiley-VCH.
    3.   Articles dans des revues avec comité de lecture (58)
  3. 1. Torres Huerta, A., Norvaisa, K., Cataldo, A., Tits, P.-O., Panda, P., Dias, C. M., Davis, A. P., Bodman, S. E., Butler, S. J., & Valkenier, H. (2025). Structural Requirements of Synthetic Anionophores for Inorganic Phosphate and Phosphate Esters. ChemistryEurope., e202400076. doi:10.1002/ceur.202400076
  4. 2. Konopka, M., Halgreen, L., Dascalu, A.-E., Chvojka, M., & Valkenier, H. (2025). Controlling the transmembrane transport of chloride by dynamic covalent chemistry with azines. Chemical science (Cambridge. 2010. Online). doi:10.1039/D4SC08580A
  5. 3. Torrisi, J., Chvojka, M., Jurček, P., Zhang, X., Zeng, H., Šindelář, V., & Valkenier, H. (2025). Anion Transport by Bambusuril-Bile Acid Conjugates: Drastic Effect of the Cholesterol Content. Angewandte Chemie International Edition in English., e202424754. doi:10.1002/anie.202424754
  6. 4. Norvaisa, K., Torres Huerta, A., & Valkenier, H. (2024). Synthetic transporters for oxoanions. Current opinion in chemical biology, 83, 102542. doi:10.1016/j.cbpa.2024.102542
  7. 5. Torres Huerta, A., & Valkenier, H. (2024). The Role of the Organic Moiety in the Diffusion and Transport of Carboxylates into Liposomes. Molecules, 29(21), 5124. doi:10.3390/molecules29215124
  8. 6. Chvojka, M., Valkenier, H., & Sindelář, V. (2024). Synthesis of bambusurils with perfluoroalkylthiobenzyl groups as highly potent halide receptors. Organic chemistry frontiers, 12, 130-135. doi:10.1039/D4QO01746C
  9. 7. Singh, A., Torres Huerta, A., Meyer, F., & Valkenier, H. (2024). Anion transporters based on halogen, chalcogen, and pnictogen bonds: towards biological applications. Chemical science. doi:10.1039/D4SC04644G
  10. 8. Halgreen, L., & Valkenier, H. (2024). Synthesis of an Anion Receptor Using 3,6-Diaminophenanthrene as a Scaffold. Molbank, 3, M1853. doi:10.3390/M1853
  11. 9. Halgreen, L., Torres Huerta, A., Norvaisa, K., De Leener, G., Tumanov, N., Wouters, J., Bartik, K., & Valkenier, H. (2024). A Semiflexible Tetrahydrazone Macrocycle for Binding of Pyrophosphate and Smaller Anions. Journal of organic chemistry, 89(10), 6853–6864. doi:10.1021/acs.joc.4c00235
  12. 10. Chvojka, M., Madea, D., Valkenier, H., & Šindelář, V. (2023). Tuning CH Hydrogen Bond‐Based Receptors toward Picomolar Anion Affinity via the Inductive Effect of Distant Substituents. Angewandte Chemie. doi:10.1002/anie.202318261
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