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Enantioselective magnetochiral photochemistry

Author

Listed:
  • G. L. J. A. Rikken

    (Grenoble High Magnetic Field Laboratory, Max Planck Institut für Festkörperforschung/CNRS, BP 166)

  • E. Raupach

    (Grenoble High Magnetic Field Laboratory, Max Planck Institut für Festkörperforschung/CNRS, BP 166)

Abstract

Many chemical and physical systems can occur in two forms distinguished solely by being mirror images of each other. This phenomenon, known as chirality, is important in biochemistry, where reactions involving chiral molecules often require the participation of one specific enantiomer (mirror image) of the two possible ones. In fact, terrestrial life utilizes only the L enantiomers of amino acids, a pattern that is known as the ‘homochirality of life’ and which has stimulated long-standing efforts to understand its origin1. Reactions can proceed enantioselectively if chiral reactants or catalysts are involved, or if some external chiral influence is present2. But because chiral reactants and catalysts themselves require an enantioselective production process, efforts to understand the homochirality of life have focused on external chiral influences. One such external influence is circularly polarized light, which can influence the chirality of photochemical reaction products2,13,14. Because natural optical activity, which occurs exclusively in media lacking mirror symmetry, and magnetic optical activity, which can occur in all media and is induced by longitudinal magnetic fields, both cause polarization rotation of light, the potential for magnetically induced enantioselectivity in chemical reactions has been investigated, but no convincing demonstrations of such an effect have been found2,3,4. Here we show experimentally that magnetochiral anisotropy—an effect linking chirality and magnetism5,6,7—can give rise to an enantiomeric excess in a photochemical reaction driven by unpolarized light in a parallel magnetic field, which suggests that this effect may have played a role in the origin of the homochirality of life.

Suggested Citation

  • G. L. J. A. Rikken & E. Raupach, 2000. "Enantioselective magnetochiral photochemistry," Nature, Nature, vol. 405(6789), pages 932-935, June.
  • Handle: RePEc:nat:nature:v:405:y:2000:i:6789:d:10.1038_35016043
    DOI: 10.1038/35016043
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    Cited by:

    1. Daowang Peng & Chenglin Gu & Zhong Zuo & Yuanfeng Di & Xing Zou & Lulu Tang & Lunhua Deng & Daping Luo & Yang Liu & Wenxue Li, 2023. "Dual-comb optical activity spectroscopy for the analysis of vibrational optical activity induced by external magnetic field," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    2. Hugo I Cruz-Rosas & Francisco Riquelme & Patricia Santiago & Luis Rendón & Thomas Buhse & Fernando Ortega-Gutiérrez & Raúl Borja-Urby & Doroteo Mendoza & Carlos Gaona & Pedro Miramontes & Germinal Coc, 2019. "Multiwall and bamboo-like carbon nanotubes from the Allende chondrite: A probable source of asymmetry," PLOS ONE, Public Library of Science, vol. 14(7), pages 1-13, July.
    3. María-Paz Zorzano & Susana Osuna-Esteban & Marta Ruiz-Bermejo & Cesar Menor-Salván & Sabino Veintemillas-Verdaguer, 2014. "Enantioselective Crystallization of Sodium Chlorate in the Presence of Racemic Hydrophobic Amino Acids and Static Magnetic Fields," Challenges, MDPI, vol. 5(1), pages 1-18, June.
    4. Shan Guo & Wen-Wen Zhan & Feng-Lei Yang & Jie Zhou & Yu-Hao Duan & Dawei Zhang & Yang Yang, 2024. "Enantiopure trigonal bipyramidal coordination cages templated by in situ self-organized D2h-symmetric anions," Nature Communications, Nature, vol. 15(1), pages 1-10, December.

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