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• 194416-45-0 4-bromo-N,N-bis-(4-methoxyphenyl)aniline 
• 98-80-6 phenylboronic acid 
• 1400899-16-2 C₁₄H₁₄NO₂^(1-)*Mg⁽²⁺⁾*Br^(1-) 

Relevant academic research and scientific papers

Regioselective Catalytic and Stepwise Routes to Bulky, Functional-Group-Appended, and Luminescent 1,2-Azaborinines

The regioselective syntheses of 1,2-azaborinines is achieved using an unsymmetrical iminoborane through both catalytic and stepwise modular routes. The 1,2-azaborinine ring can be selectively functionalized in the 4- and/or 6-position through control of the stepwise reaction sequence, allowing access to vinyl-functionalized and redox-active, luminescent, donor-functionalized 1,2-azaborinines. The electrochemistry and photochemistry of a tetraarylamine-substituted 1,2-azaborinine are studied. Cyclic voltammetry of this compound, relative to a non-B,N-substituted reference molecule, showed an additional oxidation wave assigned to the oxidation of the azaborinine ring, while emission spectroscopy indicated that the azaborinine was significantly more fluorescent than the reference.

Production of the triarylamine

PROBLEM TO BE SOLVED: To provide a method for producing a triarylamine compound by coupling an N, N-dialkyl sulfamate compound and a diaryl amide compound in the presence of a nickel catalyst.SOLUTION: A triarylamine is produced by allowing an N, N-dialkyl sulfamate represented by formula (1) (in the formula, Arrepresents a phenyl group or the like, and Rand Reach independently represents a 1-4C alkyl group that may be substituted with a fluorine atom) to react with a diarylamide in the presence of a nickel catalyst.

Ni-catalyzed arylation of bromomagnesium diarylamides with aryl N,N-dimethylsulfamates

The combination use of Ni(cod)2 and N,N-1,3-bis(2,6- diisopropylphenyl)-4-imidazoline-2-ylidene as a catalyst successfully gave unsymmetrical N,N-diaryl-N′,N′-diphenyl-1,1′-biphenyl-4, 4′-diamines through the arylation of bromomagnesium diarylamide with 1-(4′-diphenylamino-1,1′-biphenylyl) N,N-dimethylsulfamate. This Ni catalyst and Grignard reagents of diaryl or monoarylamides were also useful in the syntheses of various triarylamines and diarylamines from corresponding aryl N,N-dimethylsulfamates. 2012 Elsevier Ltd. All rights reserved.

Electron-transfer process in layered photoreceptors containing azo compounds

Photoinduced electron transfer (ET) is the most essential process for carrier photogeneration in organic optoelectronic devices. In azo compound- based layered photoreceptors, carrier photogeneration is sensitized by hole transport material (HTM) incorporation. We investigated this process to elucidate the highly sensitizing mechanism. First, the photoinduced ET efficiency and overall quantum efficiency were measured and compared for the layered photoreceptor and the carrier generation layer. The result that the HTM enhances the photoinduced ET implies that the HTM works catalytically to diminish the activation energy. Although such extrinsic ET takes place independently of an electric field, the subsequent geminate pair dissociation depends on the electric field. Next, the energy-gap dependence of the ET was investigated by employing more than 50 photoreceptors to vary the energy gap over a wide range. The measured efficiency was plotted against the energy gap, in which an inverted region was not observed.