Structural Insight of Anthracene Orientation by Halogen Substitution: Impact on Solid-State Fluorescence and Stimuli-Induced Fluorescence Switching

Abstract: The orientation of an anthracene π-conjugated aromatic group and excimer formation significantly influenced the fluorescence efficiency and functions of the resulting smart fluorescent materials. Herein, we have synthesized an alphacyanostyrene-integrated anthracene (1) fluorophore and investigated a halogen (F, C, and Br) effect on anthracene arrangement and solid-state fluorescence. Naphthalene-type excimer formation was observed in para-F and para-Cl, whereas unsubstituted 1 and meta-F and meta-Cl produced … Show more

“…3c and d. Consistent with reported works, 37,40,41 the interplanar distance of An dimer shows unclear effects on the excimer formation in our case. Since a decent overlap of aromatic planes is required for excimer formation, a large overlap is expected to benefit the excimer formation.…”

Modulating anthracene excimer through guest engineering in two-dimensional lead bromide hybrids

“…3c and d. Consistent with reported works, 37,40,41 the interplanar distance of An dimer shows unclear effects on the excimer formation in our case. Since a decent overlap of aromatic planes is required for excimer formation, a large overlap is expected to benefit the excimer formation.…”

Modulating anthracene excimer through guest engineering in two-dimensional lead bromide hybrids

“…16–18,33–37 As such, elucidating the effects of the linkage group on the geometrical arrangement of anthracene luminogens, and hence on the nature of electronic interaction between luminogens was strategically important. 35–40…”

Effect of twisted molecular geometry on the solid-state emissions of an anthracene fluorophore

“…[21][22][23][24][25] A subtle structural change in a uorophore is oen employed to improve uorescence efficiency as well as to achieve tunable and switchable uorescence. [26][27][28][29][30] Control of molecular packing by substitution with an alkyl group can produce uorescence gels, tunable solid-state uorescence, room-temperature phosphorescence and different types of mechanouorochromism. [31][32][33][34][35][36][37] Donor-acceptor structural "tailoring" can result in wide uorescence tuning with improved uorescence efficiency.…”

Carbazole fluorophore with an imidazole/thiazole unit: contrasting stimuli-induced fluorescence switching, water-sensing and deep-blue emission