Parties d'ouvrages collectifs (3)

  1. 1. Valcke, J., Bartik, K., & Tudor, I. (2012). Practising CLIL in Higher Education: Challenges and Perspectives. In Quality Interfaces: Examining Evidence & Exploring Solutions in CLIL (p. 286). Eichstaett Academic Press: David MArsh & Oliver Meyer.
  2. 2. Bruylants, G., Locci, E., Reisse, J., & Bartik, K. (2011). Liquid water : a necessary condition for all forms of life ? In P. Lopez-Garcia (Ed.), Origin and Evolution of Life: An Astrobiological Perspective (pp. 205-217). Cambridge: Cambridge University Press.
  3. 3. Reisse, J., Caulier, T., Dekerckheer, C., Kegelaers, Y., Segebarth, N., & Bartik, K. (1999). Some physico-chemical aspects of so-called “Homogeneous Sonochemistry”. In L. A. Crum, T. J. Mason, J. Reisse, & K. S. Suslick (Eds.), Sonochemistry and Sonoluminescence (pp. 205-224). Dordrecht: Kluwer Academic Publishers.(NATO Science series C).
  4.   Articles dans des revues avec comité de lecture (61)

  5. 1. Carpentier, R., Lambert, S., Brunetti, E., Jabin, I., & Bartik, K. (2022). Specific Binding of Primary Ammoniums in Aqueous Media by Homooxacalixarenes Incorporated into Micelles. Journal of organic chemistry. doi:10.1021/acs.joc.2c01318
  6. 2. Singh, A., Torres Huerta, A., Vanderlinden, T., Renier, N., Martinez Crespo, L., Tumanov, N., Wouters, J., Bartik, K., Jabin, I., & Valkenier, H. (2022). Calix[6]arenes with halogen bond donor groups as selective and efficient anion transporters. Chemical communications, 58, 6255-6258. doi:10.1039/d2cc008472e
  7. 3. Brunetti, E., Marcelis, L., Zhurkin, F., Luhmer, M., Jabin, I., Reinaud, O., & Bartik, K. (2021). A Water Molecule Triggers Guest Exchange at a Mono‐zinc Centre Confined in a Biomimetic Calixarene Pocket: a Model for Understanding Ligand Stability in Zn Proteins. Chemistry, 27(55), 13730-13738. doi:https://doi.org/10.1002/chem.202102184
  8. 4. Lambert, S., Bartik, K., & Jabin, I. (2020). Specific Binding of Primary Ammonium Ions and Lysine-Containing Peptides in Protic Solvents by Hexahomotrioxacalix[3]arenes. Journal of organic chemistry, 85(15), 10062-10071. doi:10.1021/acs.joc.0c01294
  9. 5. Grauwels, G., Valkenier, H., Davis, A. P., Jabin, I., & Bartik, K. (2019). Repositioning Chloride Transmembrane Transporters: Transport of Organic Ion Pairs. Angewandte Chemie International Edition in English, 58(21), 6921-6925. doi:10.1002/anie.201900818
  10. 6. Valkenier, H., Akrawi, O., Jurček, P., Sleziaková, K., Lízal, T., Bartik, K., & Sindelář, V. (2019). Fluorinated Bambusurils as Highly Effective and Selective Transmembrane Cl-/HCO3- Antiporters. Chem, 5(2), 429-444. doi:10.1016/j.chempr.2018.11.008
  11. 7. Collin, S., Parrot, A., Marcelis, L., Brunetti, E., Jabin, I., Bruylants, G., Bartik, K., & Reinaud, O. (2018). Submerging a Biomimetic Metallo-Receptor in Water for Molecular Recognition: Micellar Incorporation or Water Solubilization? A Case Study. Chemistry, 24. doi:10.1002/chem.201804768
  12. 8. Amadio, E., González-Fabra, J., Carraro, D., Denis, W., Gjoka, B., Zonta, C., Bartik, K., Cavani, F., Solmi, S., Bo, C., & Licini, G. (2018). Efficient Vanadium-Catalyzed Aerobic C−C Bond Oxidative Cleavage of Vicinal Diols. Advanced synthesis & catalysis, 360(17), 3286-3296. doi:10.1002/adsc.201800050
  13. 9. Bartocci, S., Sabaté, F., Bosque, R., Keymeulen, F., Bartik, K., Rodríguez, L., & Dalla Cort, A. (2016). Colorimetric and fluorescence “turn-on” recognition of fluoride by a maleonitrile-based uranyl salen-complex. Dyes and pigments, 135, 94-101. doi:10.1016/j.dyepig.2016.06.006

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