Home| 題 目 | Functional On-Surface Supramolecular Architectures |
| 講 師 | Thomas Jung (Group Leader Molecular Nanoscience Laboratory for Micro- and Nanotechnology Paul Scherrer Institute / Titularprofessor of Nanoscience the University of Basel, Switzerland) |
| 日 時 | 2015年11月19日(木)16:30- |
| 場 所 | 先端物質科学研究科 405N |
| 要 旨 | Supramolecular chemistry – in analogy to life’s biochemistry – involves the self-assembly of complex functional architectures from specific molecular building blocks. Surprisingly supramolecular chemistry also works in two dimensions and in complete absence of solvents i.e. in the hands of surface scientists. Stability up to temperatures of a few hundred C, the addressability of individual functional units and the ability to control the dose of the different components in precise sub-monolayer fractions provide advantages of the such produced supramolecular architectures. The physics and chemistry of these unprecedented systems, which are addressable by scanning probes, and in parallel by photon probes using synchrotron light provide insight into novel materials in their assembly, their electronic and spintronic properties which emerge from the interaction of their components down to the scale of single atoms, molecules and bonds. [1] J. Lobo-Checa et al. Science 325, 300 (2009) [2] A. Scheybal et al. Chem. Phys. Lett. 411, 214 (2005) [3] D. Chylarecka et al. J. Phys. Chem. Lett. 1, 1408–1413 (2010) [4] C. W�ckerlin et al. Nature Communications 2010, 1:61 DOI: 10.1038/ncomms1057 [5] C. W�ckerlin et al. Advanced Materials 25, 2404-2408 (2013) [6] For a complete list of contributing authors refer to the individual publications |
| 担 当 | 鈴木 仁 (先端物質科学研究科) |
*5 研究科共同セミナーの認定科目です
