Saima Jabeen scite author profile

The zwitterionic forms of the two simplest alpha-amino acids, glycine and l-alanine, in aqueous solution and the solid state have been modeled by DFT calculations. Calculations of the structures in the solid state, using PW91 or PBE functionals, are in good agreement with the reported crystal structures, and the vibrational spectra computed at the optimized geometries provide a good fit to the observed IR and Raman spectra in the solid state. DFT calculations of the structures and vibrational spectra of the zwitterions in aqueous solution at the B3-LYP/cc-pVDZ level were found to require both explicit and implicit solvation models. Explicit solvation was modeled by inclusion of five hydrogen-bonded water molecules attached to each of the five possible hydrogen-bonding sites in the zwitterion and the integration equation formalism polarizable continuum model (IEF-PCM) was employed, providing a satisfactory fit to observed IR and Raman spectra. Band assignments are reported in terms of potential-energy distributions, which differ in some respects to those previously reported for glycine and l-alanine.

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Raman and IR spectroscopic studies of fenamates – Conformational differences in polymorphs of flufenamic acid, mefenamic acid and tolfenamic acid

Jabeen

Dines

Leharne

et al. 2012

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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Surface-enhanced Raman scattering studies of rhodanines: evidence for substrate surface-induced dimerization

Jabeen

Dines

Withnall

et al. 2009

Phys. Chem. Chem. Phys.

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The surface-enhanced Raman scattering (SERS) spectra of rhodanine adsorbed on silver nanoparticles have been examined using 514.5 and 632.8 nm excitation. There is evidence that, under the experimental conditions used, rhodanine undergoes a nanoparticle surface-induced reaction resulting in the formation of a dimeric species via the active methylene group in a process which is analogous to the Knoevenagel reaction. The experimental observations are supported by DFT calculations at the B3-LYP/cc-pVDZ level. Calculated energies for the interaction of the E and Z isomers of the dimers of rhodanine with silver nanoparticles support a model in which the (intra-molecular hydrogen bonded) E isomer dimer is of lower energy than the Z isomer. A strong band, at 1566 cm(-1), in the SERS spectrum of rhodanine is assigned to the nu(C double bond C) mode of the dimer species.

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Time Dependence of SERS Enhancement for Pyrimidine Nucleosides

et al. 2010

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The effects of chemical components in a SERS sample preparation on the time scale of the SERS enhancement process have not previously been examined in detail. In this report the effects of the nature and concentration of aggregating agent as well as the concentration of both colloid and analyte on the time dependence of SERS enhancement and on the spectral profiles observed for the pyrimidine nucleosides cytidine and uridine are characterized. In conjunction with hydrodynamic diameter and ζ-potential measurements the differences in SERS enhancement profile with time observed for the aggregating agents studied (KCl and K2SO4) are ascribed to two competing processes affecting the SERS substrate nanoparticles. The first being the conventional aggregation process and the second being an equilibrium between smaller and larger aggregates which is influenced by the presence of Cl− ions.

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Saima Jabeen

Vibrational Spectra of α-Amino Acids in the Zwitterionic State in Aqueous Solution and the Solid State: DFT Calculations and the Influence of Hydrogen Bonding

Raman and IR spectroscopic studies of fenamates – Conformational differences in polymorphs of flufenamic acid, mefenamic acid and tolfenamic acid

Surface-enhanced Raman scattering studies of rhodanines: evidence for substrate surface-induced dimerization

Time Dependence of SERS Enhancement for Pyrimidine Nucleosides

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