2020
DOI: 10.1002/chem.201904770
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It's a Trap: Thiol‐Michael Chemistry on a DASA Photoswitch

Abstract: Donor-acceptor Stenhousea dducts( DASA) are popularp hotoswitches capable of togglingb etween two isomersd epending on the light and temperature of the system.T he cyclized polar form is accessed by visible-light irradiation, whereas the linear nonpolar form is recovered in the dark. Upon the formation of the cyclized form,t he DASA contains ad ouble bond featuring a b-carbonp rone to nucleophilica ttack.H ere, an isomer selective thiol-Michael reaction betweenthe cyclized DASA and ab ase-activated thiol is in… Show more

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Cited by 25 publications
(27 citation statements)
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“…Stimuli‐responsive molecules are the basis of information processing in biological as well as synthetic complex systems. Among them, photochromic molecules are particularly attractive for the ability to convert between (at least) two states by noninvasive and rapid optical stimuli with a potential of high spatial and temporal resolution . Additionally, multiple photochromic molecules have been developed, which in addition to light respond to a secondary stimulus, such as the presence of ions, oxidants/reductants, or acids/bases .…”
Section: Figurementioning
confidence: 99%
“…Stimuli‐responsive molecules are the basis of information processing in biological as well as synthetic complex systems. Among them, photochromic molecules are particularly attractive for the ability to convert between (at least) two states by noninvasive and rapid optical stimuli with a potential of high spatial and temporal resolution . Additionally, multiple photochromic molecules have been developed, which in addition to light respond to a secondary stimulus, such as the presence of ions, oxidants/reductants, or acids/bases .…”
Section: Figurementioning
confidence: 99%
“…From the application point of view, especially considering their capacity to be covalently anchored and their solvent dependence, π‐bridge substituted DASAs could be proposed as fine‐tuned molecular probes or as novel substrates for DASA reactivity [21] . Also, depending on the type of closed form that is generated (zwitterionic or non‐zwitterionic, see Figure 7), new applications could be envisioned taking advantage of the infrared DASA chemical transformation as a first step of a sequence.…”
Section: Resultsmentioning
confidence: 99%
“…Different experimental and computational studies have focused on distinct DASAs applications, [6–12] properties, [13–15] switching mechanism, [16–20] or reactivity [21] …”
Section: Introductionmentioning
confidence: 99%
“…Auf Stimuli reagierende Moleküle sind die Grundlage der Informationsverarbeitung in biologischen wie auch synthetischen, komplexen Systemen. Unter ihnen sind photochrome Moleküle aufgrund ihrer Fähigkeit zur Umwandlung zwischen (mindestens) zwei Zuständen durch nicht‐invasive und schnelle optische Stimuli bei gleichzeitig potentiell hoher räumlicher und zeitlicher Auflösung besonders attraktiv . Darüber hinaus wurden photochrome Moleküle entwickelt, die zusätzlich zu Licht auf einen sekundären Stimulus reagieren, beispielsweise auf die Anwesenheit von Ionen, Oxidations‐/Reduktionsmitteln, oder Säuren/Basen .…”
Section: Figureunclassified