Crystallization kinetics study on higher homologues of benzylidene aniline compounds: impact of phase variant on nucleation process

A systematic kinetic study leading to the crystallization process from the kinetophases (which occur prior to crystal phase) smectic B, crystal G and smectic F is performed on representative compounds of the homologous series p-phenylbenzylidene-p'-alkylanilines (PBnA) and p-n-alkoxybenzylidene-p'-alkylanilines (nO.m) these compounds are p-phenylbenzylidene-p'-nonylaniline (PB9A), p-phenylbenzylidene-p'-tetradecylaniline (PB14A), p-n-pentadecyloxybenzylidene p'-tetradecylaniline (15O.14) and p-n-octadecyloxybenzylidene-p'-nonylaniline (18O.9). The molecular mechanism and dimensionality in crystal growth from the kineto phases are computed from the Avrami equation, while the characteristic crystalline time (t*) at each crystallization temperature is deduced from the individual plots of log t vs. ΔH. The low magnitudes of the dimensionality parameter n infers the occurrence of diffusion-controlled transformations leading to the formation of plates or needles of finite size possessing impinged edges. The degree of variation in the value of n at each crystallization temperature also reveals the existence of an independent nucleation mechanism for any individual member of the series. The influence of the terminal alkyl chain lengths on the rate of crystallization is determined from a comparative study with the reported analogous compounds.     

Conformational studies of peptides containing cis-3-hydroxy-D-proline

Conformational analysis of peptides containing cis-3-hydroxy-d-proline (d-cis-3-Hyp) by NMR studies revealed that the 3-hydroxyl group in this amino acid plays a significant role in the overall three-dimensional structures of the peptides. When the d-cis-3-Hyp had its 3-hydroxyl group protected as the benzyl (Bn) ether, the peptide displayed a beta-hairpin structure in both CDCl(3) and DMSO-d(6). Even after the removal of the Bn group, the resulting deprotected compound retained the same structure as in the protected version in CDCl(3). However, in polar solvent DMSO-d(6), the C-terminal strand of the hydroxyl-deprotected peptide flipped to the side of the hydroxyl group, breaking the hairpin to form a pseudo beta-turn-like nine-membered ring structure involving an intramolecular hydrogen bond between LeuNH --> HypC3-OH.     

Development and Validation of the Chiral HPLC Method for Daclatasvir in Gradient Elution Mode on Amylose-Based Immobilized Chiral Stationary Phase

A selective and specific high-performance liquid chromatography method for the determination of daclatasvir enantiomers has been developed and validated. Various immobilized polysaccharide-based chiral stationary phases were used to define a separation strategy utilizing normal-phase and polar organic chromatography modes. Excellent resolution between daclatasvir and its enantiomer was achieved on amylose tris (3-chlorophenylcarbamate) stationary phase, namely CHIRALPAK ID-3, using binary gradient containing acetonitrile:diethylamine and methanol:diethylamine as the mobile phase. The flow rate of the mobile phases was maintained at 1.0 mL min⁻¹ while the column oven temperature was maintained at 40 °C. The column effluent was monitored by UV detection at 315 nm. In comparison with isocratic method, the binary gradient method offered excellent peak shape and improved resolution between daclatasvir and its enantiomer while maintaining the specificity with diastereomers. The method was found to be precise, accurate, and linear (R ² > 0.999). Limit of detection and limit of quantitation of the enantiomer were found to be 0.083 µg mL⁻¹ as and 0.25 µg mL⁻¹, respectively. Recovery of the enantiomer was found to be in the range of 90 to 112 %.

     

Synthesis,characterisation and phase transition studies in N-(-4-ethyloxybenzylydene)-4’-alkoxyanilines

Synthesis and characterisation are carried out in N-(-4-ethyloxybenzylidene)-4?-alkoxyanilines, 2O.Om liquid crystalline (LC) compounds with m = 3, 4 and 6–10. All the compounds exhibit monovariant nematic phase except with m = 10; the LC material shows bivariant nematic-smectic-C in addition to the nematic phase. Further, the variation in density with temperature in all these seven compounds is studied. The density and thermal expansion coefficient results reveal that the phase transitions, namely isotropic to nematic and nematic to SmC, present in these compounds show first-order nature as expected and that all the parameters show characteristic change in the vicinity of the phase transformation. The results are discussed in the light of the data available on other nO.Om compounds.     

Nucleophilic Substitution in 6-Chloro-2-(2-cyano­phenoxy)quinoxalines and Antibacterial Activity of Phenoxychloroquinoxaline Derivatives

Russian Journal of Organic Chemistry - Ullmann reaction of 2-[(6-chloroquinoxalin-2-yl)oxy]benzonitrile with 4-tert-butylphenol unexpect­edly afforded...     

Quality-by-design-based development and validation of a stability-indicating UPLC method for quantification of teriflunomide in the presence of degradation products and its application to in-vitro dissolution

A systematic design-of-experiments was performed by applying quality-by-design concepts to determine design space for rapid quantification of teriflunomide by the ultraperformance liquid chromatography (UPLC) method in the presence of degradation products. Response surface and central composite quadratic were used for statistical evaluation of experimental data using a Design-Expert software. The response variables such as resolution, retention time, and peak tailing were analyzed statistically for the screening of suitable chromatographic conditions. During this process, various plots such as perturbation, contour, 3D, and design space were studied. The method was developed through UPLC BEH C18 2.1?×?100?mm, 1.7-µ column, mobile phase comprised of buffer (5?mM K₂HPO₄ containing 0.1% triethylamine, pH 6.8), and acetonitrile (40:60 v/v), the flow rate of 0.5?mL?min^?1 and UV detection at 250?nm. The method was developed with a short run time of 1?min. Forced degradation studies revealed that the method was stability-indicating, suitable for both assay and in-vitro dissolution of a drug product. The method was found to be linear in the range of 28–84?µg?mL^?1, 2.8–22.7?µg?mL^?1 with a correlation coefficient of 0.9999 and 1.000 for assay and dissolution, respectively. The recovery values were found in the range of 100.1–101.7%. The method was validated according to ICH guidelines.     

A new family of heteroleptic ruthenium(II) polypyridyl complexes for sensitization of nanocrystalline TiO2 films

Two new heteroleptic ruthenium(II) photosensitizers that contains 2,2';6,2'-terpyridine with extended π-conjugation with donor groups, a 4,4'-dicarboxylic acid-2,2'-bipyridine anchoring ligand and a thiocyanate ligand have been designed, synthesized and fully characterized by CHN, mass spectrometry, UV-vis and fluorescence spectroscopies and cyclic voltammetry. The new sensitizers have either 3,5-di-tert-butyl phenyl (m-BL-5) or triphenylamine (m-BL-6) groups, where the molar extinction coefficient of both the sensitizers is higher than the analogous ruthenium dyes. Both the sensitizers were tested in dye-sensitized solar cells using two different redox electrolytes.     

Direct synthesis of nanoporous carbon nitride fibers using Al-based porous coordination polymers (Al-PCPs)

We report a new synthetic route for preparation of nanoporous carbon nitride fibers with graphitic carbon nitride polymers, by calcination of Al-based porous coordination polymers (Al-PCPs) with dicyandiamide (DCDA) under a nitrogen atmosphere.