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Conjugation through Si-O-Si bonds, silsesquioxane (SQ) half cage copolymers, extended examples via SiO 0.5 /SiO 1.5 units: multiple emissive states in violation of Kasha's rule.

Zijing ZhangJose Jonathan Rubio AriasHana KaehrYujia LiuRyoga MurataMasafumi UnnoNuttapon YodsinPimjai PimbaothamSirriporn JungsuttiwongMatt RammoJung-Moo HeoJinsang KimAleksander RebaneRichard M Laine
Published in: Dalton transactions (Cambridge, England : 2003) (2024)
We previously reported that phenyl- and vinyl-silsesquioxanes (SQs), [RSiO 1.5 ] 8,10,12 (R = Ph or vinyl) functionalized with three or more conjugated moieties show red-shifted absorption- and emission features suggesting 3-D conjugation via a cage centered LUMOs. Corner missing [PhSiO 1.5 ] 7 (OSiMe 3 ) 3 and edge opened, end capped [PhSiO 1.5 ] 8 (OSiMe 2 ) 2 (double decker, DD) analogs also offer red shifted spectra again indicating 3-D conjugation and a cage centered LUMO. Copolymerization of DD [PhSiO 1.5 ] 8 (OSiMevinyl) 2 with multiple R-Ar-Br gives copolymers with emission red-shifts that change with degree of polymerization (DP), exhibit charge transfer to F 4 TNCQ and terpolymer averaged red-shifts suggesting through chain conjugation even with two (O-Si-O) end caps possibly via a cage centered LUMO. Surprisingly, ladder (LL) SQ, (vinylMeSiO 2 )[PhSiO 1.5 ] 4 (O 2 SiMevinyl) copolymers offer emission red-shifts even greater for analogous copolymers requiring a different explanation. Here we assess the photophysical behavior of copolymers of a more extreme SQ form: the half cage [PhSiO 1.5 ] 4 (OSiMe 2 Vinyl) 4 , Vy 4 HC SQs. We again see small red-shifted absorptions coupled with significant red-shifted emissions, even with just a half cage, thus further supporting the existence of pπ-dπ and/or σ*-π* conjugation through Si-O-Si bonds and contrary to most traditional views of Si-O-Si linked polymers. These same copolymers donate an electron to F 4 TCNQ generating the radical anion, F 4 TCNQ -. as further proof of conjugation. Column chromatographic separation of short from longer chain oligomers reveals a direct correlation between DP and emission λ max red-shifts as another indication of conjugation. Further, one- and two-photon absorption and emission spectroscopy reveals multiple excited fluorescence-emitting states in a violation of Kasha's rule wherein emission occurs only from the lowest excited state. Traditional modeling studies again find HOMO LUMO energy levels residing only on the aromatic co-monomers rather than through Si-O-Si bonds as recently found in related polymers.
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