费尔德常数
化学
环辛四烯
法拉第效应
离域电子
苯并菲
同音
光化学
分析化学(期刊)
分子
有机化学
金属
磁场
量子力学
物理
作者
Daniel Martínez,Molly C. Warndorf,Avisek Dutta,Harrison M. Bergman,Jojo P. Joseph,Péter Müller,Paras N. Prasad,Timothy M. Swager
摘要
The increased mechanical flexibility, solution processability, ease of fabrication, and high Verdet constants have made organic Faraday rotators a promising alternative to conventional inorganic magneto-optical (MO) materials. Despite this, organic Faraday rotators have not been developed to address near-infrared (NIR) MO applications, limiting their device applications. Here, we describe a three-step synthesis and MO characterization of a fused octapyrrolyl cyclooctatetraene (FOPCOT) which exhibits a record high Verdet constant of a small molecule in the NIR-II region. Notably, the cyclooctatetraene core is constructed in a three-step one-pot reaction whereby a N,N'-dipyrrolyl acetylene is generated and immediately reacted with Rosenthal's complex to produce the corresponding zirconacycle intermediate in situ. The cascade is completed with a copper-mediated transmetalation that reductively eliminates to yield the octapyrrolyl cyclooctatetraene. This transformation offers a distinct alternative to conventional methods for pyrrole incorporation into polycyclic aromatic hydrocarbons. Stoichiometric oxidation with AgPF6 affords the oxidized analogues FOPCOT•+ and FOPCOT2+, which display strong optical absorptions at 1743 and 1198 nm, respectively. Magnetic circular dichroism study on spin-coated thin films of FOPCOT2+ yielded a maximum Verdet constant of -2.5 × 105 deg T-1 m-1 at 1224 nm.
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