Parties d'ouvrages collectifs (3)
  1. 1. Geerts, Y., Klarner, G., & Mullen, K. (1998). Hydrocarbon Oligomers. In G. Klarner, G. Wegner, & K. Mullen (Eds.), Electronic Materials, the Oligomer Approach (pp. 1-103). Weinheim: VCH.
  2. 2. Geerts, Y., & Mullen, K. (1998). Novel Light Emitting Dyes: Monomers, Oligomers, and Polymers. In W. Rettig, B. Strehmel, & S. Schrader (Eds.), Applied Fluorescence in Chemistry, Biology, and Medicine (pp. 299-325). Springer Verlag.
  3. 3. Geerts, Y. (1998). Polycatenanes, Poly[2]-catenanes, and Polymeric Catenanes. In J. Sauvage & C. Dietrich-Buchecker (Eds.), Molecular Topology: Catenanes, Rotaxanes and Knots (pp. 247-276). Weinheim: VCH.
    4.   Articles dans des revues avec comité de lecture (231)
  4. 1. Meena, R., Pandey, P., Zuffa, C., Brázda, P., Samolova, E., McIntosh, N., Volpi, M., Modesti, F., Gatsios, C., Turetta, N., Catalano, L., Choi, W., Seki, S., Cornil, J., Erk, P., Koch, N., Samorì, P., Maini, L., Schweicher, G., & Geerts, Y. (2025). Crystal Engineering in Oligorylenes: The Quest for Optimized Crystal Packing and Enhanced Charge Transport. Crystal growth & design. doi:10.1021/acs.cgd.5c00145
  5. 2. Hagiwara, Y., Schweicher, G., Das, S., Hasebe, S., Asahi, T., Koshima, H., & Geerts, Y. (2025). Control of Polymorphism and Alignment in Photochromic Salicylideneaniline Crystals Grown by Directional Crystallization. Crystal growth & design, 25(7), 2090-2098. doi:10.1021/acs.cgd.4c01729
  6. 3. Ruiz-Molina, S., Ricci, S., Martínez-Domingo, C., Ortiz-Aguayo, M. J., Pfattner, R., Schweicher, G., Geerts, Y., Salzillo, T., & Mas-Torrent, M. (2025). Influence of mechanical stress on flexible electrolyte-gated organic field-effect transistors. Journal of Materials Chemistry C, 13(9), 4807-4815. doi:10.1039/D4TC05403B
  7. 4. Gicevičius, M., Gong, H., Turetta, N., Wood, W., Volpi, M., Geerts, Y., Samori, P., & Sirringhaus, H. (2025). Probing Out-Of-Plane Charge Transport in Organic Semiconductors Using Conductive Atomic Force Microscopy. Advanced materials, 37(7), 2418694. doi:10.1002/adma.202418694
  8. 5. Catalano, L., Sharma, R., Karothu, D. P., Saccone, M., Elishav, O., Chen, C., Juneja, N., Volpi, M., Jouclas, R., Chen, H.-Y., Liu, J., Liu, G., Gopi, E., Ruzié, C., Klimis, N., Kennedy, A. R., Vanderlick, K., McCulloch, I., Ruggiero, M. T., Naumov, P., Schweicher, G., Yaffe, O., & Geerts, Y. (2024). Toward On-Demand Polymorphic Transitions of Organic Crystals via Side Chain and Lattice Dynamics Engineering. Journal of the American Chemical Society, 146(46), 31911-31919. doi:10.1021/jacs.4c11289
  9. 6. Gonzalez-Casal, S., Jouclas, R., Arbouch, I., Geerts, Y., van Dyck, C., Cornil, J., & Vuillaume, D. (2024). Thermoelectric Properties of Benzothieno-Benzothiophene Self-Assembled Monolayers in Molecular Junctions. The Journal of Physical Chemistry Letters, 15(46), 11593-11600. doi:10.1021/acs.jpclett.4c02753
  10. 7. Schweicher, G., Das, S., Resel, R., & Geerts, Y. (2024). On the importance of crystal structures for organic thin film transistors. Acta Crystallographica Section C Structural Chemistry, 80(10), 601-611. doi:10.1107/S2053229624008283
  11. 8. Gicevičius, M., James, A. M., Reicht, L., McIntosh, N., Greco, A., Fijahi, L., Devaux, F., Mas-Torrent, M., Cornil, J., Geerts, Y., Zojer, E., Resel, R., & Sirringhaus, H. (2024). Impact of hydrophilic side chains on the thin film transistor performance of a benzothieno–benzothiophene derivative. Materials Advances, 5(15), 6285-6294. doi:10.1039/D4MA00594E
  12. 9. Gillet, J., Geerts, Y., Rongy, L., & De Decker, Y. (2024). Differences in enantiomeric diffusion can lead to selective chiral amplification. Proceedings of the National Academy of Sciences of the United States of America, 121(17), e2319770121. doi:10.1073/pnas.2319770121
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