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We are investigating excited state-symmetry breaking (ES-SB) in A-π-D-π-A triads with a strongly electron-donating indolo[3,2-b] indole or indolo[2,3-b]indole core synthesized in the group of Dr. Jubi John in India. The above figure shows the evolution associated spectra corresponding to the relaxed S₁ state obtained from global analysis of the time-resolved IR data of dyes (A) and (B) with increasing solvent polarity. In (A), the presence of a single -C≡C- band around 2050 cm⁻¹, and a single  -C≡N band around 2210 cm⁻¹ in the nonpolar cyclohexane points to an electronic excitation delocalised over both branches. The occurrence of band splitting upon increasing solvent polarity is attributed to the symmetry-broken state. However, full localisation of the exciton on a single branch does not occur even in the highly polar DMSO. Interestingly, in the non-centrosymmetric dye (B), the spectral evolution is completely different compared to (A). We are performing further studies, including quantum chemical calculations, to rationalise these observations.

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