Synthesis of Quinoline-Based New Chiral Derivatizing Reagents and its use in the Derivatization and Enantioseparation of Few Structurally Similar β-Blockers using Liquid Chromatography and Structural Optimization using DFT-Reference-Cited by-同舟云学术

Synthesis of Quinoline-Based New Chiral Derivatizing Reagents and its use in the Derivatization and Enantioseparation of Few Structurally Similar β-Blockers using Liquid Chromatography and Structural Optimization using DFT

Published:2023 Issue:8 Volume:35 Page:1855-1861
ISSN:0975-427X
Container-title:Asian Journal of Chemistry
language:en
Short-container-title:Asian J. Chem.

Author:

Raffiunnisa ¹,Jaishetty N.²,Ganesh P.³,Patel M.S.⁴,Talismanov V.S.⁵,Alwera S.⁶^ORCID,Sehlangia S.⁷^ORCID

Affiliation:

1. Department of Chemistry, Aditya Engineering College, Surampalem-533437, India

2. Department of Chemistry, SRM Institute of Science & Technology, Kattankulathur-603203, India

3. Department of Inorganic and Analytical Chemistry, Andhra University, Visakhapatnam-530003, India

4. Foundation Year Department, Mohammed Al-Mana College for Medical Sciences, Dammam, Kingdom of Saudi Arabia

5. Depatment of Chemistry, Moscow Institute of Physics and Technology, Dolgoprudny, Moscow Region, 141701, Russian Federation

6. Department of Chemistry, Indian Institute of Technology Roorkee, Roorkee-247667, India

7. Department of Chemistry, National Changhua University of Education, Changhua, Taiwan

Abstract

In this work, quinoline based new chiral derivatizing reagent was synthesized by introducing chiral amino acid (L-proline) in the molecule. Synthesized chiral derivatizing reagent was characterized by spectroscopic techniques (1H NMR, FT-IR, HRMS and CHNS analysis) and used in the synthesis of diastereomer of chosen β-blockers. The RP-HPLC system was used to separate synthesized diastereomers (indirect approach of enantioseparation). Acetonitrile and buffer solution was used as mobile phase for analysis. The effect of varying concentrations and pH of mobile phase was optimized for the separation of diastereomers. The density functional theory calculations were also carried out to develop the lowest energy-minimize optimized diastereomer structures and to design separation mechanisms and elution orders. The retention factor (k), selectivity factor (α), resolution factor (RS), the limit of detection (0.192 ng mL–1) and the limit of quantification (0.576 ng mL–1) were calculated in the context of the method’s validation in accordance with ICH guidelines.

Publisher

Asian Journal of Chemistry

Subject

General Chemistry

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