Esra N. Soysal scite author profile

Esra N. Soysal

2Publications

10Citation Statements Received

128Citation Statements Given

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115

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University of Edinburgh, University College London, University of California, Davis

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Micro-Solvated DMABN: Excited State Quantum Dynamics and Dual Fluorescence Spectra

2021

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In this work, we report a complete analysis by theoretical and spectroscopic methods of the short-time behaviour of 4-(dimethylamino)benzonitrile (DMABN) in the gas phase as well as in cyclohexane, tetrahydrofuran, acetonitrile, and water solution, after excitation to the La state. The spectroscopic properties of DMABN were investigated experimentally using UV absorption and fluorescence emission spectroscopy. The computational study was developed at different electronic structure levels and using the Polarisable Continuum Model (PCM) and explicit solvent molecules to reproduce the solvent environment. Additionally, excited state quantum dynamics simulations in the diabatic picture using the direct dynamics variational multiconfigurational Gaussian (DD-vMCG) method were performed, the largest quantum dynamics “on-the-fly” simulations performed with this method until now. The comparison with fully converged multilayer multiconfigurational time-dependent Hartree (ML-MCTDH) dynamics on parametrised linear vibronic coupling (LVC) potentials show very similar population decays and evolution of the nuclear wavepacket. The ring C=C stretching and three methyl tilting modes are identified as the responsible motions for the internal conversion from the La to the Lb states. No major differences are observed in the ultrafast initial decay in different solvents, but we show that this effect depends strongly on the level of electronic structure used.

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Theoretical Investigation of the Biogenetic Pathway for Formation of Antibacterial Indole Alkaloids fromVoacanga africana

et al. 2022

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The energetic viability of the previously proposed biogenetic pathway for the formation of two unique monoterpenoid indole alkaloids, voacafricine A and B, which are present in the fruits of Voacanga africana , was investigated using density functional theory computations. The results of these calculations indicate that not only is the previously suggested pathway not energetically viable but also that an alternative biosynthetic precursor is likely.

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Esra N. Soysal

Micro-Solvated DMABN: Excited State Quantum Dynamics and Dual Fluorescence Spectra

Theoretical Investigation of the Biogenetic Pathway for Formation of Antibacterial Indole Alkaloids fromVoacanga africana

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