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 (223)
  4. 1. 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). doi:10.1073/pnas.2319770121
  5. 2. James, A. M., Gicevičius, M., Hofer, S., Schrode, B., Werzer, O., Devaux, F., Geerts, Y., Sirringhaus, H., & Resel, R. (2024). Thin film crystallization of oligoethylene glycol-benzothieno benzothiophene: Physical vapor deposition versus spin coating. Journal of crystal growth, 627, 127539. doi:10.1016/j.jcrysgro.2023.127539
  6. 3. Yang, Y., Shtukenberg, A. G., Zhou, H., Ruzié, C., Geerts, Y., Lee, S. S., & Kahr, B. (2024). Coherence in Polycrystalline Thin Films of Twisted Molecular Crystals. Chemistry of materials, 36(2), 881-891. doi:10.1021/acs.chemmater.3c02740
  7. 4. Ferrari, E., Pandolfi, L., Schweicher, G., Geerts, Y., Salzillo, T., Masino, M., & Venuti, E. (2024). Structural Order and Thermal Behavior of Ph-BTBT-10 Monolayer Phases. The Journal of Physical Chemistry Part C: Nanomaterials and Interfaces, 128(10), 4258-4264. doi:10.1021/acs.jpcc.3c07365
  8. 5. Liu, J., Kabbadj, S., Liu, G., Silva De Moraes, L., Gbabode, G., Schweicher, G., Resel, R., & Geerts, Y. (2023). Accessing Selective Crystallization of ROY Polymorphs Using Directional Crystallization from the Melt. Crystal growth & design, 23(12), 8565-8574. doi:10.1021/acs.cgd.3c00595
  9. 6. Giannini, S., Di Virgilio, L., Bardini, M., Hausch, J., Geuchies, J., Zheng, W., Volpi, M., Elsner, J., Broch, K., Geerts, Y., Schreiber, F., Schweicher, G., Wang, H. I., Blumberger, J., Bonn, M., & Beljonne, D. (2023). Transiently delocalized states enhance hole mobility in organic molecular semiconductors. Nature materials, 22, 1361-1369. doi:10.1038/s41563-023-01664-4
  10. 7. Benshalom, N., Asher, M., Jouclas, R., Korobko, R., Schweicher, G., Liu, J., Geerts, Y., Hellman, O., & Yaffe, O. (2023). Phonon–Phonon Interactions in the Polarization Dependence of Raman Scattering. The Journal of Physical Chemistry Part C: Nanomaterials and Interfaces, 127(36), 18099-18106. doi:10.1021/acs.jpcc.3c03850
  11. 8. Ferrari, E., Pandolfi, L., Schweicher, G., Geerts, Y., Salzillo, T., Masino, M., & Venuti, E. (2023). Interlayer Sliding Phonon Drives Phase Transition in the Ph-BTBT-10 Organic Semiconductor. Chemistry of materials, 35(15), 5777-5783. doi:10.1021/acs.chemmater.3c00209
  12. 9. Riederer, P., Devaux, F., Schweicher, G., Geerts, Y., & Kersting, R. (2023). Molecular semiconductors and the Ioffe–Regel criterion: A terahertz study on band transport in DBTTT. Applied physics letters, 123(3), 032103. doi:10.1063/5.0153710
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