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Programming electronic and spin states in 2D supramolecular architectures by modifications on the single atomic or molecular level

日程 : 2020年1月10日(金) 10:30 am - 11:30 am 場所 : 物性研究所本館6階 第2会議室(A635) 講師 : Prof. Thomas A. Jung 所属 : Paul Scherrer Institute and University of Basel, Switzerland 世話人 : 長谷川 幸雄 (63325)

Future quantum technologies rely on the understanding of the interaction between different electronic states in atoms or molecules. Surface supported atomic and molecular systems provide a base for such investigations with the particular advantage of addressability. In our work we establish on-surface architectures which exhibit extraordinary magnetic and quantum properties originating from the reduced dimensionality of the self-assembled and atomically precise architectures.

Quantum well arrays, exhibiting band-like electronic states [1] for example, can be produced by the interaction of porous on-surface networks with 2D Shockley-type surface states. These quantum wells have been modified by the adsorption / condensation of Xe atoms [2,3]. By designing the Xe filling pattern in the array, a quantum breadboard can be realized in remembrance of the breadboards used for testing electronic circuitry.

2D ‘checkerboard’ architectures of magnetic molecules containing different e.g. Fe, Mn spins, on exhibit particular magnetic properties and serve as templates for the modification of spins by e.g. ligands. On magnetic substrates their spin state is strongly determined by the substrate and can be selectively switched by ligation to e.g. NH3 [4]. On non-magnetic Au(111), we have observed the first example of 2D ferrimagnetic long-range order and remanence due to the RKKY interaction mediated by the surface states of the support [5].

Self-assembled 2D architectures contribute to our understanding of fundamental interactions involved in low dimensional systems. In addition, we can put these in the framework of existing models towards their further development.

Reference
[1] Lobo-Checa, J. et al., Science 325, 300, (2009)
[2] Nowakowska, S. et al., Nat. Commun.
DOI: 10.1038/ncomms7071, (2015)
[3] Nowakowska, S. et al., Small 12, 3757, (2016)
[4] Ballav N., et al., JPCL, 4, 2303, (2013)
[5] Girovsky, J. et al., Nat. Commun.
DOI: 10.1038/ncomms15388, (2017)


(公開日: 2020年01月06日)