Photochromic Dithienylethene- Phenanthroline Ligands and their Corresponding Ru(II) Complexes

Kühni, Joël; Adamo, Vincent; Belser, Peter

doi:10.2533/000942906777674859

Cited by 10 publications

(5 citation statements)

References 41 publications

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“…These results are in line with previously reported absorption properties of 5,6‐bis‐thiophene‐phenanthrolines, accessible via Suzuki‐coupling reactions (L1–4) which have been performed in benzene and acetonitrile, respectively (Table and Scheme ), , ,…”

Section: Resultssupporting

confidence: 92%

Stille Expands the Family: Access to 5,6‐Bis‐2‐thienyl‐Substituted Phenanthroline Under Mild Conditions for Luminescent Ruthenium Complexes

et al. 2019

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The Stille coupling method was used to functionalize the 5‐ and 6‐positions of 1,10‐phenanthroline with thiophene substituents. Photophysical investigations of 5,6‐bis(5‐methylthien‐2‐yl)‐1,10‐phenanthroline showed a marked influence of the substituents on the absorption properties, as a bathochromic shift of 50 nm regarding the π–π* transitions was observed. The contribution of the substituents in the corresponding Ru complex, in turn, was negligible on the absorption properties of the compound, while the extinction coefficient for the complex dropped by a factor of 0.5 compared to reference complexes. Structural investigation of the ligand and the complex revealed a perpendicular orientation of the thiophene groups with respect to the phenanthroline plane, while no preferred conformation of sulfur atoms (parallel or antiparallel) could be observed. The newly synthesized complex exhibits a superior photostability relative to [Ru(bpy)3]2+, which is promising for future applications.

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Section: Resultssupporting

confidence: 92%

Stille Expands the Family: Access to 5,6‐Bis‐2‐thienyl‐Substituted Phenanthroline Under Mild Conditions for Luminescent Ruthenium Complexes

et al. 2019

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“…Phenanthroline is an intriguing compound as fluorescence ligand because its nitrogen atoms in 1 and 10 positions can coordinate with transition metals. Yam and coworkers developed a series of photochromic 5,6‐dithienyl‐1,10‐phenanthroline ligands, which could be coordinated with different metal centers to tune the photochromism with a wide variety of different metal complexes . In addition, the phenanthroline can be modified to form imidazo [4,5‐ f ] [1,10] phenanthroline compounds, in which the NH group in imidazole ring is able to act as fluorimetric sensor for anions .…”

Section: Introductionmentioning

confidence: 99%

“…Yam and coworkers developed a series of photochromic 5,6-dithienyl-1,10-phenanthroline ligands, [37] which could be coordinated with different metal centers to tune the photochromism with a wide variety of different metal complexes. [38][39][40][41] In addition, the phenanthroline can be modified to form imidazo [4,5-f] [1,10] phenanthroline compounds, in which the NH group in imidazole ring is able to act as fluorimetric sensor for anions. [42] For instance, Wang et al reported a Eu(III) complex containing imidazo [4,5-f] [1,10] phenanthroline, in which the addition of F -, HSO 4 -, and AcOcaused significant changes in the absorption and emission spectra.…”

Section: Introductionmentioning

confidence: 99%

A multi‐addressable molecular switch based on a novel diarylethene with an imidazo [4,5‐f] [1,10] phenanthroline unit

Ren

Wang

et al. 2013

J of Physical Organic Chem

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A novel unsymmetrical diarylethene with an imidazo [4,5‐f] [1,10] phenanthroline unit has been synthesized, and its properties including photochromism and fluorescence have been investigated. It showed favorable photochromism and functioned as notable fluorescence switches by photoirradiation in both solution and a poly (methylmethacrylate) film. Moreover, the interaction between the phenanthroline unit of its closed‐ring isomer with trifluoroacetic acid caused a notable change in its absorption, accompanied by an evident color change from magenta to slateblue. Its fluorescence could be modulated by trifluoroacetic acid and triethylamine. By adding enough amount of trifluoroacetic acid in chloroform, its emission peak hypochromatic shifted from 501 nm to 456 nm, and the intensity increased significantly with a concomitant change of color from bright cyan to bright blue. However, its emission intensity decreased notably by 95% with a fluorescence color change from bright cyan to dark gray by the addition of triethylamine. Copyright © 2013 John Wiley & Sons, Ltd.

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“…In general, the molecule undergoes a photocyclization reaction if it is orientated in an anti-parallel array and if the distance between two reactive carbon atoms on the aryl moiety is within 0.42 nm [10]. The photochromic reactivity depends on several factors, such as conformation of the open-ring isomer, the categories of heteroaryl moieties, electron donor/acceptor substituents, and conjugation length of the heteroaryl groups [11][12][13][14][15]. Particularly, the categories of heteroaryl moieties and substituents on the reactive position greatly influence the photoreactivity.…”

Section: Introductionmentioning

confidence: 99%

Optoelectronic Properties and Holographic Optical Recording of a Unsymmetrical Diarylethene Having a Pyrrole Unit

Liu

Zhang

et al. 2011

KEM

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A unsymmetrical photochromic diarylethene, 1-[2-methyl-5-(3,4-difluorophenyl) -3-thienyl]-2- (2-cyano-1,5-dimethyl-4-pyrryl) perfluorocyclopentene (1o), was synthesized, and its optoelectronic properties were also investigated. The results showed that this compound exhibited reversible photochromism changing from colorless to blue after irradiation with UV light both in solution and in PMMA amorphous film. The open-ring isomer of the diarylethene 1 exhibited relatively strong fluorescence both in hexane solution. The fluorescence intensity decreased along with the photochromism upon irradiation with 297 nm light and its closed-ring isomer showed almost no fluorescence. Using diarylethene 1 as recording medium, polarization holographic optical recording was carried out successfully.

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Photochromic Dithienylethene- Phenanthroline Ligands and their Corresponding Ru(II) Complexes

Cited by 10 publications

References 41 publications

Stille Expands the Family: Access to 5,6‐Bis‐2‐thienyl‐Substituted Phenanthroline Under Mild Conditions for Luminescent Ruthenium Complexes

Stille Expands the Family: Access to 5,6‐Bis‐2‐thienyl‐Substituted Phenanthroline Under Mild Conditions for Luminescent Ruthenium Complexes

A multi‐addressable molecular switch based on a novel diarylethene with an imidazo [4,5‐f] [1,10] phenanthroline unit

Optoelectronic Properties and Holographic Optical Recording of a Unsymmetrical Diarylethene Having a Pyrrole Unit

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