Capturing electron-driven chiral dynamics in UV-excited molecules

Wanie, Vincent; Bloch, Etienne; Månsson, Erik P.; Colaizzi, Lorenzo; Ryabchuk, Sergey; Saraswathula, Krishna; Ordonez, Andres F.; Ayuso, David; Smirnova, Olga; Trabattoni, Andrea; Blanchet, Valérie; Ben Amor, Nadia; Heitz, Marie-Catherine; Mairesse, Yann; Pons, Bernard; Calegari, Francesca

doi:10.1038/s41586-024-07415-y

Nature

2024

DOI: 10.1038/s41586-024-07415-y

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Capturing electron-driven chiral dynamics in UV-excited molecules

Vincent Wanie,

Etienne Bloch,

Erik P. Månsson

et al.

Abstract: Chiral molecules, used in applications such as enantioselective photocatalysis1, circularly polarized light detection2 and emission3 and molecular switches4,5, exist in two geometrical configurations that are non-superimposable mirror images of each other. These so-called (R) and (S) enantiomers exhibit different physical and chemical properties when interacting with other chiral entities. Attosecond technology might enable influence over such interactions, given that it can probe and even direct electron moti… Show more

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Cited by 7 publications

References 39 publications

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A Dynamic H‐Bonding Network Enables Stimuli‐Responsive Color‐Tunable Chiral Afterglow Polymer for 4D Encryption

Guo,

Li,

Yan

et al. 2024

Advanced Materials

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The development of stimuli‐responsive and color‐tunable chiral organic afterglow materials has attracted great attention but remains a daunting challenge. Here, a simple yet effective strategy through the construction of a dynamic H‐bonding network is proposed to explore the multi‐color stimuli‐responsive chiral afterglow by doping a self‐designed chiral phosphorescent chromophore into a polyvinyl alcohol matrix. A stimuli‐responsive deep blue chiral afterglow system with a lifetime of up to 3.35 s, quantum yield of 25.0%, and luminescent dissymmetry factor of up to 0.05 is achieved through reversible formation and breakdown of the H‐bonding network upon thermal‐heating and water‐fumigating. Moreover, multi‐color stimuli‐responsive chiral afterglow can be obtained by chiral and afterglow energy transfer, allowing the establishment of afterglow information displays and high‐level 4D encryption. This work not only offers a facile platform to develop advanced stimuli‐responsive materials but also opens a new avenue for developing next‐generation optical information technology with enhanced functionality and responsiveness.

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A Dynamic H‐Bonding Network Enables Stimuli‐Responsive Color‐Tunable Chiral Afterglow Polymer for 4D Encryption

Guo,

Li,

Yan

et al. 2024

Advanced Materials

View full text Add to dashboard Cite

show abstract

Time‐Dependent Extension of Grimme's Continuous Chirality Measure for Electronic Chirality Flips in Femto‐ and Attosecond Time Domains

Guo,

Haase,

Manz

et al. 2024

ChemPhysChem

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Grimme’s Continuous Chirality Measure (CCM ) was developed for comparisons of the chirality of the electronic wave functions of molecules, typically in their ground states. For example, CCM=14.5, 1.2, and 0.0 for alanine, hydrogen‐peroxide, and for achiral molecules, respectively. Well‐designed laser pulses can excite achiral molecules from the electronic ground state to time‐dependent chiral superposition states, with chirality flips in the femto‐ or even attosecond (fs or as) time domains. Here we provide a time‐dependent extension CCM(t) of Grimme’s CCM for trailing the electronic chirality flips. As examples, we consider two laser driven electronic wavefunctions which represent flips between opposite electronic enantiomers of oriented NaK within 4.76 fs and 433 as. The corresponding CCM(t) vary respectively from 14.5 or from 13.3 to 0.0, and back.

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Spatio‐Temporal Symmetries of Electronic Chirality Flips in Oriented RbCs Induced by two Coincident Laser Pulses with Circular ++, +−, −+, −− Polarizations

Liu,

Manz,

Wang

et al. 2024

ChemPhysChem

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Recently it has been shown that two coincident well designed laser pulses with two different combinations of circular polarizations ( ++ or ‐+ ) can create chiral electronic densities in an oriented heteronuclear diatomic molecule. Subsequently, the chirality flips from the electronic Ra to Sa to Ra to Sa etc. enantiomers, with periods in the femtosecond (fs) and attosecond (as) time domains. The results were obtained by means of quantum dynamics simulations for oriented NaK. Here we investigate the electronic chirality flips in oriented RbCs induced by all possible ( ++ , ‐+ , +‐ , ‐‐ ) combinations of circular polarizations of two coincident well‐designed laser pulses. Accordingly, the ++ and ‐‐ as well as the +‐ and ‐+ combinations generate opposite electronic enantiomers, e. g. Ra versus Sa, followed by opposite periodic chirality flips, e.g. form Ra to Sa to Ra to Sa etc. versus form Sa to Ra to Sa to Ra etc, with periods in the fs and as time domains, respectively. The laser induced spatio‐temporal symmetries are derived from first principles and illustrated by quantum dynamics simulations.

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Capturing electron-driven chiral dynamics in UV-excited molecules

Cited by 7 publications

References 39 publications

A Dynamic H‐Bonding Network Enables Stimuli‐Responsive Color‐Tunable Chiral Afterglow Polymer for 4D Encryption

A Dynamic H‐Bonding Network Enables Stimuli‐Responsive Color‐Tunable Chiral Afterglow Polymer for 4D Encryption

Time‐Dependent Extension of Grimme's Continuous Chirality Measure for Electronic Chirality Flips in Femto‐ and Attosecond Time Domains

Spatio‐Temporal Symmetries of Electronic Chirality Flips in Oriented RbCs Induced by two Coincident Laser Pulses with Circular ++, +−, −+, −− Polarizations

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