<i>N</i>,<i>N</i>′-Disubstituted Indigos as Readily Available Red-Light Photoswitches with Tunable Thermal Half-Lives

Huang, Chung Yang; Bonasera, Aurelio; Hristov, Lachezar V.; Garmshausen, Yves; Schmidt, Bernd; Jacquemin, Denis; Hecht, Stefan

doi:10.1021/jacs.7b08726

Cited by 103 publications

(168 citation statements)

References 48 publications

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“…Unlike most other trans ↔ cis isomerizing photochromic compounds, the blueshift in the cis isomer of thioindigos is not caused by sterically induced distortion from planarity and impaired conjugation through the central double bond, but much rather by non‐bonding interaction between the sulfur and oxygen atoms . These features which thioindigos share with only a few other photochromic compounds (particularly N‐functionalized indigos and certain hemithioindigos) make for an excellent molecular machinery for spatial control: depending on the flexibility of the linkage, attached molecular payload can be allowed or even forced to come close or separate on rotation around the central double bond of the chromophore (Scheme b). As a result of trans → cis isomerization, some substituents in opposite hemispheres (such as 4 and 7′) depart from each other and get separated by the central dye atoms, whereas others (especially 4 and 4′) approach and get to face each other.…”

Section: Methodsmentioning

confidence: 99%

Reversible Spatial Control in Aqueous Media by Visible Light: A Thioindigo Photoswitch that is Soluble and Operates Efficiently in Water

Koeppe

Römpp

2018

Chemistry A European J

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Aiming to extend the scope of indigoid photoswitches to polar protic environments, we have synthesized a sulfonated thioindigo derivative highly soluble in water. Studies by UV/Vis absorption, fluorescence, and NMR spectroscopy indicate that, despite aggregation effects at micromolar concentrations, the novel dye offers satisfactory performance in aqueous solution in the absence of solvation aides. Enrichment of the metastable cis isomer by irradiation may exceed 65 % and its half-life at room temperature may exceed several hours. Degradation after 20 yellow and blue light irradiation cycles within 2 hours is less than 2 %. Performance can be expected to further improve in future molecular designs if the tendency towards self-association is further reduced. Crucially, photoisomerization of indigoids is not necessarily inhibited by water and, thus, the superior spatial control offered by this class of molecular switches may be of great benefit also in biological systems.

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Section: Methodsmentioning

confidence: 99%

Reversible Spatial Control in Aqueous Media by Visible Light: A Thioindigo Photoswitch that is Soluble and Operates Efficiently in Water

Koeppe

Römpp

2018

Chemistry A European J

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“…This very fast process prevents a deexcitation by trans to cis photoisomerization, which can be observed in other chromophores bearing substituted double bonds such as azobenzene, stilbene or thioindigoid derivatives. However if both nitrogen atoms of indigo are substituted by alkyl, acetyl, tert ‐butyloxycarbonyl, or as recently been found by the Hecht group by aryl residues, the proton transfer mechanism can be excluded and trans to cis isomerization occurs. In case of indigo derivatives bearing only one substituted nitrogen atom (whilst the other nitrogen atom is still connected to hydrogen) a trans to cis photoisomerization was not observed so far.…”

Section: Introductionmentioning

confidence: 99%

“…In the research field of photoresponsive materials, indigoid chromophores, gained more and more importance in the last years due to their outstanding redshifted absorption. Hemithioindigo based peptide‐switches, protein inhibitors or molecular devices such as molecular calculators, motors, and receptors are interesting examples for shifting addressability at the molecular scale into the region of less energetic light.…”

Section: Introductionmentioning

confidence: 99%

“…Hemithioindigo based peptide‐switches, protein inhibitors or molecular devices such as molecular calculators, motors, and receptors are interesting examples for shifting addressability at the molecular scale into the region of less energetic light. Very recently it was reported that di‐arylated indigos can be efficiently photoisomerized while possessing high barriers for thermal cis to trans isomerization . Especially twofold arylated indigos bearing electron deficient groups at the N‐aryl substituents show remarkable thermal stabilities of their cis isomers.…”

Section: Introductionmentioning

confidence: 99%

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Photoisomerization of Mono‐Arylated Indigo and Water‐Induced Acceleration of Thermal cis‐to‐trans Isomerization

2018

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Substituted indigo derivatives undergo photoisomerization of the central double bond if both nitrogen atoms are functionalized. Indigo itself however does not photoisomerize because of a competing and highly efficient excited‐state proton transfer. In this work, we show that also mono‐arylated indigo undergoes photoisomerization despite still possessing one nitrogen‐bound proton and the likely presence of a competing intramolecular excited‐state proton transfer. The two different isomers exhibit strongly different absorptions and therefore can be distinguished by the naked eye. Different to diaryl‐substituted indigo, thermal decay of the metastable cis isomers of mono‐arylated derivatives can be greatly accelerated by small amounts of water (by more than a factor of 300 for measured half‐lives). Such tunability is of high interest for applications that require quick and autonomous switching‐off of photoresponsive trigger units.

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“…These advantages have stimulated the application of light‐driven molecular switches14 and motors in functional materials8, 15, 16, 17, 18, 19, 20 and biological systems 21, 22, 23, 24. However, potentially harmful UV light is typically used for their operation while, for practical applications, the use of visible light is often desired 25, 26, 27, 28, 29, 30, 31…”

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confidence: 99%

Light‐Gated Rotation in a Molecular Motor Functionalized with a Dithienylethene Switch

et al. 2018

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A multiphotochromic hybrid system is presented in which a light‐driven overcrowded alkene‐based molecular rotary motor is connected to a dithienylethene photoswitch. Ring closing of the dithienylethene moiety, using an irradiation wavelength different from the wavelength applied to operate the molecular motor, results in inhibition of the rotary motion as is demonstrated by detailed 1H‐NMR and UV/Vis experiments. For the first time, a light‐gated molecular motor is thus obtained. Furthermore, the excitation wavelength of the molecular motor is red‐shifted from the UV into the visible‐light region upon attachment of the dithienylethene switch.

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N,N′-Disubstituted Indigos as Readily Available Red-Light Photoswitches with Tunable Thermal Half-Lives

Cited by 103 publications

References 48 publications

Reversible Spatial Control in Aqueous Media by Visible Light: A Thioindigo Photoswitch that is Soluble and Operates Efficiently in Water

Reversible Spatial Control in Aqueous Media by Visible Light: A Thioindigo Photoswitch that is Soluble and Operates Efficiently in Water

Photoisomerization of Mono‐Arylated Indigo and Water‐Induced Acceleration of Thermal cis‐to‐trans Isomerization

Light‐Gated Rotation in a Molecular Motor Functionalized with a Dithienylethene Switch

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