Preparation of Phthalocyanines with Eight Benzylchalcogeno Substituents from 5,6-Dibromo-4,7-diethylbenzo[1,2,3]trichalcogenoles

Kimura, Takeshi; Yomogita, Akinori; Matsutani, Tomoya; Suzuki, Takahiro; Tanaka, Ichiro; Kawai, Yasushi; Takaguchi, Yutaka; Wakahara, Takatsugu; Akasaka, Takeshi

doi:10.1021/jo030354j

Cited by 44 publications

(35 citation statements)

References 27 publications

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“…X-ray crystallographic analysis showed that 3 has a monoclinic form and the space group is P2 1 /n (#14) with parameters a = 11.5476 (8), b = 18.4177 (16), c = 16.9028 (15) Å, and β = 92.878 (3)°. It appears that the unit cell consists of two molecules of 3.…”

Section: X-ray Crystallographic Analysismentioning

confidence: 99%

“…[6,7] In a related study, we recently reported the preparation, structural determination, and optical and electrochemical properties of octaethyloctakis-(benzylthio)phthalocyanine and octaoctyltetrakis(trithiolo)-phthalocyanine and their derivatives. [8] On the other hand, it is known that tetraazaporphyrins fused to four five-membered heterocycles such as furans, pyrroles, and thiophenes are extremely unstable, although these compounds can be considered as isosteric structures of phthalocyanine. [9] Despite many early attempts to prepare tetraazaporphyrins with four five-membered heterocycles, up to now only tetra(2,3-thieno)tetraazaporphyrin (2,3-TTTAP) bearing four thiophene units linked at their 2,3-positions and several related compounds have been reported as stable derivatives.…”

Section: Introductionmentioning

confidence: 99%

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Preparation and Characterization of Nonclassical Tetraazaporphyrin, Bis(4‐methylpyridine)[1,3,5,7,9,11,13,15‐octaphenyltetra(3,4‐thieno)tetraazaporphyrinato]ruthenium(II)

et al. 2011

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The tetramerization reaction of 2,5‐diphenyl‐3,4‐dicyanothiophene (2) proceeded on treatment with ruthenium(III) trichloride, DBU, and 4‐methylpyridine in 2‐ethoxyethanol at 135 °C to give bis(4‐methylpyridine)[1,3,5,7,9,11,13,15‐octaphenyltetra(3,4‐thieno)tetraazaporphyrinato]ruthenium(II)(3). Because the structure of this product cannot be represented by a usual bonding system, this molecule has to contain an unusual tetravalent sulfur atom in one of the four thiophene rings. In the 1H NMR spectrum of the product, signals from 4‐methylpyridine coordinated to the central ruthenium atom showed an upfield shift. The structure of 3 was determined by X‐ray crystallography, which revealed that 3 has four thiophene units linked at their 3,4‐positions to the tetraazaporphyrin scaffold. Four pairs of phenyl groups are in close proximity and are sterically congested, which causes the four thiophene rings to deviate from the mean plane of the central four pyrrole nitrogen atoms. The UV/Vis spectrum of 3 shows a Q‐band absorption at λmax = 758 nm. In the MCD spectrum of 3, dispersion‐type absorptions (Faraday A term) are observed at 746 and 776 nm. The MCD spectra suggest that the two LUMOs of 3 could be degenerate even though its structure deviates from D4h symmetry. The electrochemical properties of 3 were examined by cyclic voltammetry with Ag/AgNO3 as the reference electrode. The optimized structure and the NMR shielding constants of a simplified model molecule were calculated by using density functional theory.

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Section: X-ray Crystallographic Analysismentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Preparation and Characterization of Nonclassical Tetraazaporphyrin, Bis(4‐methylpyridine)[1,3,5,7,9,11,13,15‐octaphenyltetra(3,4‐thieno)tetraazaporphyrinato]ruthenium(II)

et al. 2011

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“…[15] To improve the synthetic procedure for phthalonitrile, we tried to introduce the o-xylylene group on the sulfur atoms as a protecting group. Compound 1a was treated with sodium borohydride and potassium carbonate in THF/methanol, and then with α,αЈ-dibromo-o-xylene to give 4,5-dibromo-3,6-diethyl-1,2-(o-xylylenedithio)benzene (2a) in 77 % yield.…”

Section: Preparation Of Tetrakis(o-xylylenedithio)phthalocyaninesmentioning

confidence: 99%

“…[21] In contrast, peripheral modification of phthalocyanines through the S-C bond cleavage of thioethers is rare. [15] Deprotection and subsequent functionalization of 4b, 4c, and 4b-Ni was thus tried. Typically, the four o-xylylene groups of 4c were removed under argon by treatment with lithium metal in THF/liquid ammonia at -78°C for 1 h (Scheme 4).…”

Section: Deprotection and Functionalization Of 4b 4c And 4b-nimentioning

confidence: 99%

“…[7a,10] In contrast, from our ongoing studies of several cyclic oligosulfides, [12][13][14] we recently reported on the preparation of 5,6-dibromo-4,7-diethylbenzo [1,2,3]trichalcogenoles 1a and 1aЈ and their conversion into phthalocyanines [PcXBn] bearing eight benzylthio or benzylseleno substituents by four-step reactions (Scheme 1). [15] In addition, phthalocyanines [PcXSnBu] with four dichalcogenastannole rings were obtained in low yields through the removal of the benzyl groups by Birch reduction with lithium/THF/ammonia and subsequent functionalization of the octachalcogenate anions with dibutyltin dichloride. This suggested that the procedure could be useful for the preparation of new phthalocyanines with eight peripheral chalcogenated functional groups.…”

Section: Introductionmentioning

confidence: 99%

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Preparation and Electrochemical Properties of 1,4,8,11,15,18,22,25‐Octalkylphthalocyanines Containing Four Trithiole Rings

et al. 2006

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xylylenedithio)phthalocyanines 4a-d (alkyl = ethyl, butyl, octyl, and dodecyl) were prepared in moderate yields by treatment of 3,6-dialkyl-4,5-(o-xylylenedithio)phthalonitriles 3a-d with lithium in n-pentanol. Reductive removal of the four o-xylylene groups from 4b and 4c was performed with lithium/THF/ammonia, and the octathiolate anions generated were then treated with elemental sulfur to give the new phthalocyanines 6b and 6c, respectively, each containing four trithiole rings, after partial desulfurization and ring-contraction reactions of the corresponding phthalocyanines 5b and 5c. The structures of the phthalocyanines were determined by 1 H NMR spectroscopy and MALDI-TOF mass spec-

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NMR of Organoselenium and Organotellurium Compounds

Panda

Singh

2012

Patai's Chemistry of Functional Groups

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This chapter gives a systematic account of and surveys the available data on 77 Se and 125 Te NMR spectra of organochalcogen compounds such as chacogenols, mono and dichalcogenides, chalcogenolates, tetra and hexa substituted chalcogen compounds, chalcogenyl halides, chalcogen‐containing heterocycles and macrocycles, chalcogen‐oxygen/nitrogen compounds, etc. The review is based on the literature from 1985 to 2011 and includes 780 references. The 77 Se/ 125 Te NMR spectra of organochalcogen compounds reveal expansive chemical shifts (δ Se /δ Te ) leading to sharp sensitivity of these nuclei (Se/Te) to their environment such as solvent, temperature, molecular geometry, ligand backbone, oxidation state, chelate ring size, steric strain, etc. This is well illustrated by the advantageous use of this spectroscopy in the successful determination of the solution state structure of several organochalcogen compounds. It is noted that the 125 Te and 77 Se chemical shifts of a large number of structurally similar organotellurium and selenium compounds show linear relationship.

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Preparation of Phthalocyanines with Eight Benzylchalcogeno Substituents from 5,6-Dibromo-4,7-diethylbenzo[1,2,3]trichalcogenoles

Cited by 44 publications

References 27 publications

Preparation and Characterization of Nonclassical Tetraazaporphyrin, Bis(4‐methylpyridine)[1,3,5,7,9,11,13,15‐octaphenyltetra(3,4‐thieno)tetraazaporphyrinato]ruthenium(II)

Preparation and Characterization of Nonclassical Tetraazaporphyrin, Bis(4‐methylpyridine)[1,3,5,7,9,11,13,15‐octaphenyltetra(3,4‐thieno)tetraazaporphyrinato]ruthenium(II)

Preparation and Electrochemical Properties of 1,4,8,11,15,18,22,25‐Octalkylphthalocyanines Containing Four Trithiole Rings

NMR of Organoselenium and Organotellurium Compounds

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