2014
DOI: 10.1002/anie.201309746
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Strategies for the Synthesis of Functional Naphthalene Diimides

Abstract: Naphthalene diimides, which have for a long time been in the shadow of their higher homologues the perylene diimides, currently belong to the most investigated classes of organic compounds. This is primarily due to the initial synthetic studies on core functionalization that were carried out at the beginning of the last decade, which facilitated diverse structural modifications of the naphthalene scaffold. Compounds with greatly modified optical and electronic properties that can be easily and effectively modu… Show more

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Cited by 353 publications
(244 citation statements)
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“…We determined their LUMO energy levels from the onset potential of their reduction at -1.85 and -2.06 eV for SQPTZ-F and SQPTZ-TXO 2 , highlighting the stronger electron-poor character of TXO 2 compared to that of F in accordance with the above mentioned results on HOMO energies. The electrochemical gaps (∆E el ) were found to be 3.31 eV for SQPTZ-F and 3.24 eV for SQPTZ-TXO 2 . Thus, SQPTZ-TXO 2 possesses a ∆E el significantly contracted by 0.2/0.3 eV compared to that of the PA and IA counterparts (∆E el SPA-TXO 2 =3.43 eV, ∆E el SIA-TXO 2 =3.56 eV) due to its high HOMO energy level.…”
supporting
confidence: 78%
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“…We determined their LUMO energy levels from the onset potential of their reduction at -1.85 and -2.06 eV for SQPTZ-F and SQPTZ-TXO 2 , highlighting the stronger electron-poor character of TXO 2 compared to that of F in accordance with the above mentioned results on HOMO energies. The electrochemical gaps (∆E el ) were found to be 3.31 eV for SQPTZ-F and 3.24 eV for SQPTZ-TXO 2 . Thus, SQPTZ-TXO 2 possesses a ∆E el significantly contracted by 0.2/0.3 eV compared to that of the PA and IA counterparts (∆E el SPA-TXO 2 =3.43 eV, ∆E el SIA-TXO 2 =3.56 eV) due to its high HOMO energy level.…”
supporting
confidence: 78%
“…As TXO 2 and F moieties are oxidised through irreversible processes, these two oxidation waves have been assigned to two single electron transfers involving the QPTZ core. Thus, the first oxidation of the QPTZ fragment remarkably occurs at a less anodic potential than that of the PA (E 1 > 1.11 V in SPA-TXO 2 ) [17] and that of the IA core (E 1 =1.33 V for SIA-TXO 2 and 1.19 V for SIA-F). [14] This strong electron rich character finds hence its origin in the electron donating behaviour of the intracyclic sulphur atom, which fully drives the HOMO energy level of these dyes ( Figure 4).…”
mentioning
confidence: 97%
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“…Rylene diimides, represented by naphthalene diimide (NDI, Figure 1a), have been the focus of studies in the past few decades because of their potential use in chromophores, supramolecules, optoelectronic materials, and n-type organic semiconductors [1][2][3][4]. On the one hand, the optical properties of the rylene diimide-based system can be tuned by the central rylene moiety [5,6], i.e., increasing the number of naphthalene moieties (Figure 1b) can drastically alter the absorption range from ultraviolet to visible and to the infrared region.…”
Section: Introductionmentioning
confidence: 99%