Two-electron transfer stabilized by excited-state aromatization

被引:0
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作者
Jinseok Kim
Juwon Oh
Seongchul Park
Jose L. Zafra
Justin R. DeFrancisco
David Casanova
Manho Lim
John D. Tovar
Juan Casado
Dongho Kim
机构
[1] Yonsei University,Spectroscopy Laboratory for Functional π
[2] Pusan National University,electronic Systems and Department of Chemistry
[3] University of Málaga,Department of Chemistry and Chemistry Institute for Functional Materials
[4] Andalucia-Tech,Department of Physical Chemistry
[5] Campus de Teatinos s/n,Department of Chemistry
[6] Johns Hopkins University,undefined
[7] Donostia,undefined
[8] International Physics Center (DIPC) & IKERBASQUE - Basque Foundation for Science,undefined
来源
Nature Communications | / 10卷
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摘要
The scientific significance of excited-state aromaticity concerns with the elucidation of processes and properties in the excited states. Here, we focus on TMTQ, an oligomer composed of a central 1,6-methano[10]annulene and 5-dicyanomethyl-thiophene peripheries (acceptor-donor-acceptor system), and investigate a two-electron transfer process dominantly stabilized by an aromatization in the low-energy lying excited state. Our spectroscopic measurements quantitatively observe the shift of two π-electrons between donor and acceptors. It is revealed that this two-electron transfer process accompanies the excited-state aromatization, producing a Baird aromatic 8π core annulene in TMTQ. Biradical character on each terminal dicyanomethylene group of TMTQ allows a pseudo triplet-like configuration on the 8π core annulene with multiexcitonic nature, which stabilizes the energetically unfavorable two-charge separated state by the formation of Baird aromatic core annulene. This finding provides a comprehensive understanding of the role of excited-state aromaticity and insight to designing functional photoactive materials.
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