Light Runs Across Iron Catalysts in Organic Transformations

Zhou, Wenjun; Wu, Xudong; Meng, Miao; Wang, Zhe‐Hao; Chen, Liang; Shan, Si‐Yi; Cao, Guang‐Mei; Yu, Da‐Gang

doi:10.1002/chem.202000508

Cited by 56 publications

(37 citation statements)

References 181 publications

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“…Extending this concept to iron holds the promise of making this metal broadly available for photocatalysis. This is especially challenging, given that excited-state lifetimes of iron complexes are often in the picosecond range and have been reported at best in the low-nanosecond range . However, there is only limited data available on coordination complexes of iron with bidentate isonitriles, − in contrast with monodentate isonitrile iron complexes, which have attracted considerable attention due to the high prevalence of iron carbonyl complexes .…”

Section: Introductionmentioning

confidence: 99%

Synthesis and Characterization of Bidentate Isonitrile Iron Complexes

et al. 2021

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The divalent iron complexes trans-[FeBr 2 (BINC) 2 ], [Cp*FeCl(BINC)] (Cp* = Me 5 C 5 ), and [FeBr 2 (CNAr 3 NC) 2 ] with the chelating bis(isonitrile) ligands BINC (bis(2-isocyanophenyl)phenylphosphonate) and CNAr 3 NC (2,2″-diisocyano-3,5,3″,5"tetramethyl-1,1′:3′,1″-terphenyl) have been prepared and characterized. Their subsequent reduction yields the di-and trinuclear compounds [Fe 3 (BINC) 6 ], [Cp*Fe(BINC)] 2 , [Fe(CNAr 3 NC) 2 ] 2 , and [K-(Et 2 O)] 2 [Fe(CNAr 3 NC) 2 ] 2 . The molecular structures of all new species were determined by X-ray crystallography and compared to those of related iron carbonyl complexes, demonstrating that the bidentate isonitrile ligands are capable surrogates for two CO ligands with only minimal distortion of the tetrahedral or octahedral geometry of the parent complexes. The complexes were further characterized by NMR and IR spectroscopy, and the electrochemical properties of selected compounds were analyzed by UV−vis−NIR spectroelectrochemistry.

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Section: Introductionmentioning

confidence: 99%

Synthesis and Characterization of Bidentate Isonitrile Iron Complexes

et al. 2021

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“…Besides, the reaction also afforded the natural products urolithins (79 a, 79 The merging of visible light photoredox chemistry with iron catalysis constitutes a highly versatile approach to sophisticated organic synthesis. [54] In this context, a visible light-driven lactonization of 2arylbenzoic acids 68 was achieved by Lie and coworkers by employing [Fe(NO 3 ) 3 ] . 9H 2 O, NaBrO 3 , 2,2'bipyridine-6,6'-dicarboxylic acid, and HFIP as a catalyst, oxidant, ligand, and solvent respectively (Scheme 27 (b)).…”

Section: (E)-cinnamic Acid/2-arylbenzoic Acids/ 2-methyl-11-biaryl As Substratesmentioning

confidence: 99%

“…The merging of visible light photoredox chemistry with iron catalysis constitutes a highly versatile approach to sophisticated organic synthesis [54] . In this context, a visible light‐driven lactonization of 2‐arylbenzoic acids 68 was achieved by Lie and co‐workers by employing [Fe(NO 3 ) 3 ] .…”

Section: Cyclization Approach To Functionalized Coumarinsmentioning

confidence: 99%

Visible Light‐Induced Synthesis of Functionalized Coumarins

Singh

Sharma

2021

Adv Synth Catal

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Functionalized coumarins are privileged scaffolds which display diverse pharmacological and physiological activities, and a myriad of applications in medical science and biomedical research. Owing to these multifarious activities of coumarins, synthetic chemists are actively engaged in developing new and superior methods for their synthesis. In the last decade, the synthesis of functionalized coumarins via visible light-induced methodologies has turned into one of the most significant and fundamental missions in organic synthesis. This review covers the literature on the synthesis of functionalized coumarins under visible light-assisted methodologies. 3.6. 4-Chloro-3-Nitrocoumarin as Substrate 3.7. 1-Bromo-2H-Phenaleno[1,2,3-de]chromen-2-Ones as Substrate 4.Conclusions

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“…This is especially challenging given that excited-state lifetimes of iron complexes are often in the picosecond range and have been reported at best in the low nanosecond range. [10] However, there are only limited data available on coordination complexes of iron complexes with bidentate isonitriles, [18]- [21] contrasting monodentate isonitrile iron complexes, which have attracted considerable attention due to the high prevalence of iron carbonyl complexes. [11] For example, dinuclear iron complexes such as [CpFe(CNPh)2] [12] (A, Ph = C6H5) or [Fe2(CNPh)9] [13] (B) feature terminal and bridging isonitrile ligands (Figure 1).…”

Section: Introductionmentioning

confidence: 99%

Synthesis and Characterization of Bidentate Isonitrile Iron Complexes

Till¹,

Kelly²,

Ziegler³

et al. 2021

Preprint

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Divalent iron complexes trans-[FeBr2(BINC)2], [Cp*FeCl(BINC)] (Cp* = Me5C5) and [FeBr2(CNAr3NC)2] with chelat-ing bis(isonitrile) ligands BINC (bis(2-isocyanophenyl)phenylphosphonate) and CNAr3NC (2,2’’-diisocyano-3,5,3’’,5’’tetramethyl-1,1’:3’,1’’-terphenyl) have been prepared and characterized. Their subsequent reduction yields di- and trinuclear compounds [Fe3(BINC)6], [Cp*Fe(BINC)]2, [Fe(CNAr3NC)2]2 and [K(Et2O)]2[Fe(CNAr3NC)2]2. The molecular structures of all new species were determined by X-ray crystallography. The molecular structures are compared to related iron carbonyl complexes. The complexes were further characterized by NMR and IR spectroscopy, and the electrochemical properties of selected compounds were analyzed by UV-Vis-NIR spectroelectrochemistry. <br>

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Light Runs Across Iron Catalysts in Organic Transformations

Cited by 56 publications

References 181 publications

Synthesis and Characterization of Bidentate Isonitrile Iron Complexes

Synthesis and Characterization of Bidentate Isonitrile Iron Complexes

Visible Light‐Induced Synthesis of Functionalized Coumarins

Synthesis and Characterization of Bidentate Isonitrile Iron Complexes

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