The Influence of Internal Charge Transfer on Nonradiative Decay in Substituted Terthiophenes

Abstract: Photophysical data for a series of end substitued 3',4'-dibutyl-2,2':5',2''-terthiophenes are reported. Static absorption and fluorescence, quantum yields, time-resolved fluorescence, and time- and frequency-resolved pump-probe spectra are applied to investigate excited state relaxation in bromo, nitro, and tricyanovinyl substituted species in a variety of solvents. The effect of solvent polarizability and end-group substitution is discussed in the context of charge transfer in the excited state and its impact… Show more

“…As shown in Figure , the cyano‐containing compound 3 presented the absorption maximum at 358 nm, and the dicyanovinylene‐containing compounds 1 , 2 and 4 presented the large bathochromic shift. It was explainable by two reasons: the strong electron‐withdrawing ability of dicyanovinylene group and large molecular coplanarity, in agreement with the behavior of the substituted terthiophenes, and a large steric hindrance in 3 molecular structure, which reduced the electron coupling between the pyrene core and thiophene moiety . 1,8‐substituted 1 and 1,6‐substituted 2 are isomers, and they had the similar absorption profiles, indicating that the absorption spectra were not significantly affected by the 1,6‐ or 1,8‐substitution pattern, in good agreement with the report about the pyrene derivaitves 1,6‐ and 1,8‐substituted with 2‐[1,8]naphthylridinyl and thienylphenothiazine .…”

Development of Pyrene Derivatives as Promising n‐Type Semiconductors: Synthesis, Structural and Spectral Properties

“…As shown in Figure , the cyano‐containing compound 3 presented the absorption maximum at 358 nm, and the dicyanovinylene‐containing compounds 1 , 2 and 4 presented the large bathochromic shift. It was explainable by two reasons: the strong electron‐withdrawing ability of dicyanovinylene group and large molecular coplanarity, in agreement with the behavior of the substituted terthiophenes, and a large steric hindrance in 3 molecular structure, which reduced the electron coupling between the pyrene core and thiophene moiety . 1,8‐substituted 1 and 1,6‐substituted 2 are isomers, and they had the similar absorption profiles, indicating that the absorption spectra were not significantly affected by the 1,6‐ or 1,8‐substitution pattern, in good agreement with the report about the pyrene derivaitves 1,6‐ and 1,8‐substituted with 2‐[1,8]naphthylridinyl and thienylphenothiazine .…”

Development of Pyrene Derivatives as Promising n‐Type Semiconductors: Synthesis, Structural and Spectral Properties

“…The experimental setup has been reported previously. 20 Samples in a 1 cm quartz cell were excited using a 40 MHz diode laser (Picoquant LDH-P-C-375) at 375 nm and 40 MHz diode laser (Picoquant LDH-P-C-470) at 470 nm. Sample emission was detected using an avalanche photodiode at a right-angle geometry at the exit of a double monochromator (Jobin-Yvon TRIAX-320).…”

Effect of extending conjugation via thiophene-based oligomers on the excited state electron transfer rates to ZnO nanocrystals

“…[21] Transient Absorption Spectroscopy: The pump-probe setup has been described previously. [22] A homebuilt, amplified Titanium:Sapphire-based laser system produced 0.5 mJ, 800 nm pulses at 1 kHz centered at 800 nm. The output was divided to produce the excitation and probe pulses.…”

Preparation, Characterization, Redox, and Photoinduced Electron‐Transfer Properties of the NIR‐Absorbing N‐Ferrocenyl‐2‐pyridone BODIPYs