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Quantum Switching of π‑Electron Rotations in a Nonplanar Chiral Molecule by Using Linearly Polarized UV Laser Pulses

Nonplanar chiral aromatic molecules are candidates for use as building blocks of multidimensional switching devices because the π electrons can generate ring currents with a variety of directions. We employed (P)-2,2′-biphenol because four patterns of π-electron rotations along the two phenol rings...

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Bibliographic Details
Published in:Journal of the American Chemical Society 2012-09, Vol.134 (35), p.14279-14282
Main Authors: Mineo, Hirobumi, Yamaki, Masahiro, Teranishi, Yoshiaki, Hayashi, Michitoshi, Lin, Sheng Hsien, Fujimura, Yuichi
Format: Article
Language:English
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Summary:Nonplanar chiral aromatic molecules are candidates for use as building blocks of multidimensional switching devices because the π electrons can generate ring currents with a variety of directions. We employed (P)-2,2′-biphenol because four patterns of π-electron rotations along the two phenol rings are possible and theoretically determine how quantum switching of the π-electron rotations can be realized. We found that each rotational pattern can be driven by a coherent excitation of two electronic states under two conditions: one is the symmetry of the electronic states and the other is their relative phase. On the basis of the results of quantum dynamics simulations, we propose a quantum control method for sequential switching among the four rotational patterns that can be performed by using ultrashort overlapped pump and dump pulses with properly selected relative phases and photon polarization directions. The results serve as a theoretical basis for the design of confined ultrafast switching of ring currents of nonplanar molecules and further current-induced magnetic fluxes of more sophisticated systems.
ISSN:0002-7863
1520-5126
DOI:10.1021/ja3047848