ACADSTAFF UGM
| Title | : | The effect of electron correlation in unraveling the hydration properties of Sc3+ in aqueous solution: A rigid body quantum mechanics/molecular mechanics simulation study |
| Author | : |
Dr.rer.nat. Niko Prasetyo, S.Si., M.Sc. (1) |
| Date | : | 0 2021 |
| Keyword | : | QM/MM,Sc3+,Electron correlation,molecular dynamics QM/MM,Sc3+,Electron correlation,molecular dynamics |
| Abstract | : | The structural and dynamical properties of Sc3+ have been studied using quantum mechanics/molecular mechanics (QM/MM) and quantum mechanical charge field (QMCF) MD simulations. The QM region in the QM/MM MD simulation is treated using the resolution-of-identity MP2 level of theory, whereas the Hartree–Fock (HF) level of theory was applied for the QM regions in the QMCF MD simulation. Based on these two approaches, Sc3+ is hydrated by six water molecules in the first hydration shell. The average bond distances of Sc3+???water are 2.15 and 2.16?Å for the QM/MM and QMCF MD simulations, respectively. No successful ligand exchange events were observed in QM/MM MD, while four successful ligand exchanges occurred in the QMCF MD simulation. These results proved the rigidity of the first hydration shell of Sc3+. In comparison with the other rare earth elements, Sc3+ showed the strongest interaction with water as reflected in the 214.76 and 192.52?N/m force constant values for the QM/MM and QMCF MD simulations, respectively. Electron correlation plays a role in strengthening the interactions between Sc3+ and water molecules in the first hydration shell. |
| Group of Knowledge | : | Kimia |
| Original Language | : | English |
| Level | : | Internasional |
| Status | : |
Published
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| 1 |
1-s2_0-S0167732221004608-main.pdf
Document Type : [PAK] Full Dokumen
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| 2 |
The_Impact_of_Electron_Correlation_in_Unraveling_t.pdf
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bukti_korespondensi_effect_of_electron.pdf
Document Type : [PAK] Bukti Korespondensi Penulis
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| 4 |
The effect of electron correlation in unraveling the hydration properties of Sc3+ in aqueous solution_ A rigid body quantum mechanics_molecular mechanics simulation study.pdf
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