4-Dimethylaminochalcone as fluorescent probe: effect of the medium polarity on relaxation processes in the excited state

Gularyan, S. K.; Sarkisov, O. M.; Dobretsov, G. E.; Svetlichnyĭ, V. Yu.; Гостев, Ф. Е.; Antipin, S. A.

doi:10.1007/s11172-005-0015-z

Cited by 8 publications

(9 citation statements)

References 4 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The well-fitted evolution associated difference spectra (EADSs) and concentrations of transient species are obtained (see Figure ), and all the obtained time constants in different solvents are listed in Table . In CHX, after photoexcitation, the molecule has a high probability of ISC into triplet state (τ 1 ) according to the nanosecond TA results and previous calculations, , and the second lifetime component (τ 2 ) for DEAMC in CHX is assigned to the relaxation of the T 1 state back to the ground state. In THF, we attribute the first component (τ 1 ) to vibrational cooling or average solvation time of the initially Franck–Condon (FC) state, which is reached to an equilibrium situation through intramolecular vibrational energy redistribution and energy dissipation to the solvent molecules.…”

Section: Resultsmentioning

confidence: 67%

“…Earlier studies have shown that DEAHC has no or weak green fluorescence in solution but is strongly emissive around 700 nm when in bulk crystals; DEAMC is dark in both crystalline form and nonpolar solution but emits brightly in polar solution. , To explore their crucial microscopic dynamic mechanism, in this work, solvent-dependent excited state dynamics of both DEAMC and DEAHC are extensively investigated by using steady state spectroscopy, femtosecond and nanosecond transient absorption spectroscopy. We found that dramatic solvation effect induces stabilization of ICT state, restricting efficient formation of triplet states, enhancing the fluorescence yield of DEAMC . ,, Moreover, the stronger solvation process in polar solvents can further facilitate efficient ESIPT reaction in DEAHC .…”

Section: Introductionmentioning

confidence: 85%

“…We found that dramatic solvation effect induces stabilization of ICT state, restricting efficient formation of triplet states, enhancing the fluorescence yield of DEAMC. 41,43,44 Moreover, the stronger solvation process in polar solvents can further facilitate efficient ESIPT reaction in DEAHC.…”

Section: ■ Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Solvent Polarity Dependent Excited State Dynamics of 2′-Hydroxychalcone Derivatives

et al. 2018

View full text Add to dashboard Cite

The excited-state properties of 4-(dimethylamino)methoxychalcones (DEAMC) and its derivative 4-(dimethylamino)hydroxychalcones (DEAHC) were investigated in various solvents with different polarities by using steady-state and femtosecond transient absorption spectroscopy combined with quantum chemical calculations. It is found that their photophysical parameters such as fluorescence quantum yields, lifetimes, and excited-state relaxation paths strongly depend on the solvent polarity. Quantum-chemical calculations elucidate that the geometry of DEAMC in the ground state is slightly torsional whereas DEAHC adopts a near planar conformation stabilized by O−H•••O chelated hydrogen bonds. Steady state spectra show that DEAHC is weak fluorescent in all solvents due to nonradiative relaxation in the excited enol and keto states, whereas the fluorescence quantum yield of DEAMC increases with the increasing of solvent polarities, and the emission yield is as large as 0.16 in acetonitrile. Femtosecond and nanosecond transient absorption spectra further prove that in nonpolar solvent the deactivation of S 1 in DEAMC is strongly governed by efficient formation of triplet states, whereas in polar solvent, stronger solvation induced energetically stabilization of ICT state, limiting the intersystem crossing to triplet state. The stabilization of ICT state not only leads to a higher fluorescence quantum yield for DEAMC but also restricts intramolecular twisting process in the enol form of DEAHC, facilitating efficient excited-state intramolecular proton-transfer reaction. These results clearly illustrate the dominant role of excited state solvation in modulating the emission behavior and deactivation mechanisms of fluorophores.

show abstract

Section: Resultsmentioning

confidence: 67%

Section: Introductionmentioning

confidence: 85%

See 1 more Smart Citation

Solvent Polarity Dependent Excited State Dynamics of 2′-Hydroxychalcone Derivatives

et al. 2018

View full text Add to dashboard Cite

show abstract

“…So, the calculations show that after the initial excitation of a DMAC molecule to the 1 (p, p*) state, an effective cascade of relaxation 1 (p, p*) -1 (n, p*) -3 (p, p*) can occur. This results in rapid (several picoseconds, according to our experimental estimates) 11 population of the triplet 3 (p, p*) state.…”

Section: The Nature and Properties Of Dmac Lower Excited Statesmentioning

confidence: 61%

“…10 Basic processes that define the probe's fluorescence occur in its excited states. 11 This means that in order to assess specific contributions of radiative and nonradiative processes to the molecule's relaxation path, we had to determine the nature of its lowest excited states. This task is traditionally solved with quantum chemistry methods.…”

Section: Introductionmentioning

confidence: 99%

Electronically excited states of membrane fluorescent probe 4-dimethylaminochalcone. Results of quantum chemical calculations

Romanov¹,

Gularyan

Polyak

et al. 2011

Phys. Chem. Chem. Phys.

View full text Add to dashboard Cite

Quantum-chemical calculations of ground and excited states for membrane fluorescent probe 4-dimethylaminochalcone (DMAC) in vacuum were performed. Optimized geometries and dipole moments for lowest-lying singlet and triplet states were obtained. The nature of these electronic transitions and the relaxation path in the excited states were determined; changes in geometry and charge distribution were assessed. It was shown that in vacuum the lowest existed level is of (n, π*) nature, and the closest to it is the level of (π, π*) nature; the energy gap between them is narrow. This led to an effective (1)(π, π*) →(1)(n, π*) relaxation. After photoexcitation the molecule undergoes significant transformations, including changes in bond orders, pyramidalization angle of the dimethylamino group, and planarity of the molecule. Its dipole moment rises from 5.5 Debye in the ground state to 17.1 Debye in the (1)(π, π*) state, and then falls to 2 Debye in the (1)(n, π*) state. The excited (1)(n, π*) state is a short living state; it has a high probability of intersystem crossing into the (3)(π, π*) triplet state. This relaxation path explains the low quantum yield of DMAC fluorescence in non-polar media. It is possible that (3)(π, π*) is responsible for observed DMAC phosphorescence.

show abstract

Dipolar relaxation in a lipid bilayer detected by a fluorescent probe, 4″-dimethylaminochalcone

Svetlichny

Mérola

Dobretsov

et al. 2007

Chemistry and Physics of Lipids

View full text Add to dashboard Cite

4-Dimethylaminochalcone as fluorescent probe: effect of the medium polarity on relaxation processes in the excited state

Cited by 8 publications

References 4 publications

Solvent Polarity Dependent Excited State Dynamics of 2′-Hydroxychalcone Derivatives

Solvent Polarity Dependent Excited State Dynamics of 2′-Hydroxychalcone Derivatives

Electronically excited states of membrane fluorescent probe 4-dimethylaminochalcone. Results of quantum chemical calculations

Dipolar relaxation in a lipid bilayer detected by a fluorescent probe, 4″-dimethylaminochalcone

Contact Info

Product

Resources

About