Disequilibrating azobenzenes by visible-light sensitization under confinement

  • Julius Gemen (Weizmann Institute of Science Israel) (Creator)
  • Jonathan Church (Hebrew University of Jerusalem) (Creator)
  • Tero-Petri Ruoko (Creator)
  • Nikita Durandin (Creator)
  • Michał Białek (University of Wrocław) (Creator)
  • Maren Weißenfels (Weizmann Institute of Science Israel) (Creator)
  • Moran Feller (Weizmann Institute of Science Israel) (Creator)
  • Miri Kazes (Weizmann Institute of Science Israel) (Creator)
  • Magdalena Odaybat (Imperial College, London, 24.8.2012) (Creator)
  • Veniamin Borin (Hebrew University of Jerusalem) (Creator)
  • Rishir Kalepu (Weizmann Institute of Science Israel) (Creator)
  • Yael Diskin-Posner (Weizmann Institute of Science Israel) (Creator)
  • Dan Oron (Weizmann Institute of Science Israel) (Creator)
  • Matthew Fuchter (Imperial College, London, 24.8.2012) (Creator)
  • Arri Priimägi (Creator)
  • Igor Schapiro (Hebrew University of Jerusalem) (Creator)
  • Rafal Klajn (Weizmann Institute of Science Israel) (Creator)

Tietoaineisto

Kuvaus

The ability to photoswitch azobenzenes from their stable E isomer to the metastable Z state is the basis of numerous applications of these molecules. However, this reaction typically requires UV light, which limits the applicability, particularly in biological settings. Here we introduce DisEquilibration by Sensitization under Confinement (DESC), a biomimetic approach to switch various azobenzenes using visible light of desired color, including red. DESC relies on a combination of a macrocyclic host and a photosensitizer, which act together to bind and selectively sensitize E-azobenzenes. After switching to the Z isomer, the azobenzene loses its affinity to—and is expelled from—the host, which can convert additional copies of E into Z. In this way, the host/photosensitizer complex acts as a light-driven supramolecular machine, converting photon energy into chemical energy in the form of out-of-equilibrium photostationary states, including ones that cannot be accessed via direct photoexcitation.
Koska saatavilla14 syysk. 2023
JulkaisijaDryad

Field of science, Statistics Finland

  • 216 Materiaalitekniikka
  • Disequilibrating azobenzenes by visible-light sensitization under confinement

    Gemen, J., Church, J. R., Ruoko, T.-P., Durandin, N., Białek, M. J., Weißenfels, M., Feller, M., Kazes, M., Odaybat, M., Borin, V. A., Kalepu, R., Diskin-Posner, Y., Oron, D., Fuchter, M. J., Priimagi, A., Schapiro, I. & Klajn, R., 22 syysk. 2023, julkaisussa: Science. 381, 6664, s. 1357-1363 7 Sivumäärä

    Tutkimustuotos: ArtikkeliTieteellinenvertaisarvioitu

    Open access
    Tiedosto
    53 Sitaatiot (Scopus)
    16 Lataukset (Pure)

Siteeraa tätä