First experimental verification of a null point in a synthetic molecular dyad demonstrating state localization and tunable selective electron-hole filtering via pump-probe measurements and vibronic theory.
and Spano, Frank C
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BN doping renders the planar-to-Dewar isomerization asymmetric via a B-C stabilized metastable intermediate whose transition state resembles an S0/S1 conical intersection, and targeted substitution red-shifts S1 while boosting oscillator strength and Dewar yield.
Local electric fields in a nanocavity induce proportionally scaling Stark shifts, sharpen dark excitonic emission peaks, and cause divergent behavior in bright states of polyradical aggregates.
citing papers explorer
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State Localization and Selective Charge Filtering Near a Null Point
First experimental verification of a null point in a synthetic molecular dyad demonstrating state localization and tunable selective electron-hole filtering via pump-probe measurements and vibronic theory.
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Asymmetric Planar-to-Dewar Isomerisation in BN-Doped Naphthalene: Mechanistic Implications for Molecular Solar Thermal Storage
BN doping renders the planar-to-Dewar isomerization asymmetric via a B-C stabilized metastable intermediate whose transition state resembles an S0/S1 conical intersection, and targeted substitution red-shifts S1 while boosting oscillator strength and Dewar yield.
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Locally-Induced Stark Shifts of Collective Excitonic Modes in Polyradical Aggregates
Local electric fields in a nanocavity induce proportionally scaling Stark shifts, sharpen dark excitonic emission peaks, and cause divergent behavior in bright states of polyradical aggregates.