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Influence of cation-heteroatom (Li+, Na+, and K +) interaction on the structural and thermochemical properties of 2′-deoxythymidine nucleoside: Qtaim and NBO analyzes
, Article Journal of Theoretical and Computational Chemistry ; Volume 12, Issue 2 , December , 2013 ; 02196336 (ISSN) ; Fattahi, A ; Sharif University of Technology
2013
Abstract
Density functional theory (DFT) method and B3LYP/6-311++G(d,p) basis set were used to determine coordination geometries, binding strength, and metal ion affinity (MIA) for interaction of 2′-deoxythymidine (dT) with alkali metal cations including Li+, Na+, and K+. Calculations demonstrated that the interaction of dT with these cations is tri-coordinated η (O2, O4′, O5′). Among these cations, Li + cation exhibited the most tendency for interaction with dT. Cations via their interaction with dT can affect the N-glycosidic bond length, the values of pseudorotation of the sugar ring, the orientation of base unit with respect to sugar ring and the acidity of O5′H, O3′H, and N3H groups in 2′-dT...
Influence of metal complexation on acidity of cytosine nucleosides: Part I, Li +, Na + and K + cation
, Article Scientia Iranica ; Volume 19, Issue 3 , June , 2012 , Pages 535-545 ; 10263098 (ISSN) ; Fattahi, A ; Pourjavadi, A ; Sharif University of Technology
2012
Abstract
Gas-phase acidities of nucleosides, combined with the knowledge of deprotonation sites, could improve our understanding of chemical reactions to biological systems. In this paper, we mainly focus our attention on the influence of cation coordination on acidities of multiple sites in cytosine nucleosides. The acidities of multiple sites in M +-L (where L represents cytosine nucleosides and M + is an alkali metal ion, including Li +, Na + and K +) complexes have been investigated theoretically, employing B3LY P6-311++G(d,p) basis sets. The geometrical characters, gas-phase acidities, sugar puckering and electronic properties of non-deprotonated and/or deprotonated complexes have been...
Alkali metal cation incorporation in conductive TiO2 nanoflakes with improved photoelectrochemical h2 generation
, Article ChemElectroChem ; Volume 7, Issue 7 , March , 2020 , Pages 1699-1706 ; Mohajernia, S ; Hejazi, S ; Mehdipour, H ; Naseri, N ; Moradlou, O ; Liu, N ; Moshfegh, A. Z ; Schmuki, P ; Sharif University of Technology
Wiley-VCH Verlag
2020
Abstract
In this research, we investigate the effect of alkali metal cations including Li, Na and Cs in hydrothermal solution on the morphology, stability, and photoactivity of nanostructured TiO2 nanoflakes as a photoanode. The TiO2 nanoflakes are formed through hydrothermal treatment of Ti foil in 1.0 M LiOH, NaOH or CsOH at 100 °C for 3 h. By subsequent thermal reduction of the structure in an optimized Ar/H2 environment, conductive TiO2 nanoflakes were formed. The reduction treatment remarkably improves the photocurrent density of the TiO2 nanoflakes and has the highest impact on the sample treated in the NaOH alkali solution. For the nanoflakes produced in NaOH alkali solution, the bandgap is...