Syntheses and UV/Vis Properties of Amino‐Functionalized Fulgimides

Otto, Bernhard; Rück‐Braun, K.

doi:10.1002/ejoc.200200680

Cited by 29 publications

(17 citation statements)

References 36 publications

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“…[8,10] However, with these bases the reaction between indole 5 and diethyl isopropylidenesuccinate (6) proceeded sluggishly, and the halfester (Z)-7 was isolated in poor yields. Fortunately, however, with potassium hexamethyldisilazide (KHMDS) in THF the half-ester (Z)-7 was obtained in 36 % isolated yield.…”

Section: Resultsmentioning

confidence: 99%

“…in benzene at reflux gave fulgimide 2 (Scheme 2) in 67 % yield over the two steps after workup and purification by flash chromatography as a 64:36 mixture of the E and Z isomers. [8] The pure C isomer (C)-2 (Scheme 1) was obtained in 54 % yield by irradiation of a solution of a Z/E isomeric mixture at 365 nm (200 W HBO) in DCM for 12 h and purification by flash chromatography. The C isomer (C)-2, dissolved in DCM, was then irradiated for 4 h with 545 nm light (1000 W, XBO) to yield the pure E isomer (E)-2 (Scheme 1), quantitatively.…”

Section: Resultsmentioning

confidence: 99%

“…[7] Fulgimides have also been identified as highly thermally and hydrolytically stable photochromic compounds. [8] Furthermore, the imide moiety can be used for the attachment of fluorophores. [9] Fulgimides and their parent fulgides each contain a hexa-1,3,5-triene structural element, and can exist in three isomeric forms: the noncyclizable Z form, the cyclizable E form, and the closed C form, which is obtained upon photochemical 6π-electrocyclization.…”

Section: Introductionmentioning

confidence: 99%

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Preparation of an Indolylfulgimide‐Adamantane Linker Conjugate with Nitrile Anchoring Groups through Palladium‐Catalyzed Transformations

et al. 2009

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We report the preparation, through palladium-catalyzed transformations, of the indolylfulgimide linker conjugate 1, containing an adamantane core and nitrile anchoring groups. The ethynylene-linker 12 for the final Sonogashira coupling was prepared through palladium-mediated cyanation of an iodo-substituted precursor with Zn(CN) 2 . The synthesis of the 6-bromo-substituted indolylfulgimide coupling partner 2 was accomplished in seven steps. Model studies using phenylacetylene and the 5-bromo-substituted indole 13 were con-

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Preparation of an Indolylfulgimide‐Adamantane Linker Conjugate with Nitrile Anchoring Groups through Palladium‐Catalyzed Transformations

et al. 2009

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“…[25,26] Also, geometric constraints imparted on the azobenzene moiety when incorporated into macrocycles can markedly affect thermal relaxation rates, as well documented with cyclic azobenzene peptides ( Table 2). [23] It should be noted that the [27] and hemithioindigos, [28] which have been developed in the group of Karola Rück-Braun, as well as secondary thioamide bonds, [29][30][31] which would be "minimal invasive" chromophores.…”

Section: Azobenzene-based Photoswitchesmentioning

confidence: 99%

Azobenzene as Conformational Switch in Model Peptides

2006

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The photoinduced isomerization of azobenzene between the extended (trans) and compact (cis) conformations is reversibly triggered by light of two differing wavelengths. The resulting changes in molecular geometry have been extensively utilized to photoswitch transformations in chemical species reversibly for applications in optoelectronic devises as well as to photocontrol conformational states in (bio)polymers. The high isomerization yield, remarkable photostability and ultrafast kinetics (few ps) of azobenzene are well suited for the design of small, defined model systems that allow detailed folding studies to be carried out both experimentally and theoretically on the same molecules. In our and other laboratories such systems were recently obtained with cyclic peptides of defined conformational preferences as well as with alpha-helical and beta-hairpin peptides. These should, by comparison of simulation and experiment, permit an assessment and improvement of the theoretical description on the one hand and a detailed interpretation of the ultrafast conformational dynamics on the other. The phototriggered changes in conformational states lead to concurrent changes in biophysical properties that can be exploited in the photocontrol of biochemical and biological events, as exemplarily discussed with redox-active cyclic bis-cysteinyl peptides and receptor ligands.

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“…1 In recent years, particular attention has been given to the synthesis and investigation of the properties of thermally irreversible photochromic compounds, in par ticular, of fulgimides, which undergo reversible valence photoisomerization resulting in the transformation of the open form A into the cyclic form B (Scheme 1). [2][3][4] The colorless open form A is transformed into the colored cyclic form B under UV irradiation (hν). The latter form is again transformed into the starting colorless state under visible light irradiation (hν 1 ).…”

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Synthesis and spectral-kinetic investigation of fulgimide-based photochromic autocomplexes of the dinitroquinoline series

et al. 2008

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Two new hybrid compounds, which belong to autocomplexes of the dinitroquinoline series and contain an NH spacer and fragments of photochromic fulgimides as donor components, were synthesized. These autocomplexes were used as ligands in the synthesis of cobalt containing metal chelates. The spectral kinetic study revealed that these compounds exhibit photochromism. The introduction of photochromic fulgimide moieties into the autocomplexes has no substantial effect on the spectral properties of the latter but influences the kinetics of photochromic transforma tions by decreasing their efficiency. Chelate complexes of the hybrid compounds with cobalt ions are characterized by the lowest efficiency of photochromic transformations due to a decrease in the intensity of activating radiation as a result of its absorption by the dinitroquinoline moieties, which are not conjugated with fragments of photochromic compounds.

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Syntheses and UV/Vis Properties of Amino‐Functionalized Fulgimides

Cited by 29 publications

References 36 publications

Preparation of an Indolylfulgimide‐Adamantane Linker Conjugate with Nitrile Anchoring Groups through Palladium‐Catalyzed Transformations

Preparation of an Indolylfulgimide‐Adamantane Linker Conjugate with Nitrile Anchoring Groups through Palladium‐Catalyzed Transformations

Azobenzene as Conformational Switch in Model Peptides

Synthesis and spectral-kinetic investigation of fulgimide-based photochromic autocomplexes of the dinitroquinoline series

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