Your search keyword '"M. Kesava Reddy"' showing total 4 results

1. 13C NMR investigations and order parameters of rod-like molecules with terminal phenyl and thiophene rings in mesogenic core✰

Author

M. Kesava Reddy, A.A. Boopathi, Nitin P. Lobo, K.V. Ramanathan, and T. Narasimhaswamy

Subjects

Rod-like mesogens, Smectic I phase, 13C-1H dipolar couplings, SLF, Order parameters, 13C NMR, Medical physics. Medical radiology. Nuclear medicine, R895-920, Physics, QC1-999

Abstract

Rod-like mesogens with the rigid core constituted by a combination of phenyl and thiophene moieties reveal interesting orientational ordering behavior. In this article, four rod-like mesogens constructed with a terminal alkoxy chain on only one side of the mesogenic core with the other end terminated with either a phenyl or thiophene ring have been investigated using 13C NMR spectroscopy. The mesogen with the terphenyl moiety in the core exhibited polymesomorphism with nematic, smectic C, and smectic I mesophases with very high clearing temperatures. The replacement of terphenyl with terthiophene moiety resulted in suppression of polymesomorphism, with only nematic mesophase being observed. Mesogens with single terminal thiophene connected to two phenyl rings in the core also showed only the nematic mesophase for both the possibilities of linking the core to the thiophene ring at the 2- and 3- positions. One- and two- dimensional 13C NMR spectra have been obtained in the mesophases from which the alignment induced chemical shifts of the ring carbons and 13C-1H dipolar couplings, as well as the local order parameters, have been obtained. The considerable difference in 13C chemical shifts and the 13C-1H dipolar couplings of thiophene ring with change in position of the linking unit is attributed to the difference in the order parameters of the thiophene moiety between the two cases. The data obtained on the ordering of phenyl and thiophene rings in the core units offered information into the effect of replacing the phenyl ring with the thiophene ring. So also, the change of position of the link to the thiophene moiety provided important insights into the orientational behavior in the liquid crystalline phase and on the molecular structure.

Published

2022

2. Direct Method to Grasp Molecular Topology of Mesogens through 13C-1H Dipolar Couplings

Author

M, Kesava Reddy, primary, Jaya Shalini, P, additional, Lobo, Nitin P, additional, Roy, Arun, additional, and Tanneru, Narasimhaswamy, additional

Published

2023

3. Effortless Extraction of Structural and Orientational Information from 13 C- 1 H Dipolar Couplings for Thiophene Mesogens.

Author

Veeraprakash B, Kesava Reddy M, Das BB, Lobo NP, Ramanathan KV, and Narasimhaswamy T

Abstract

Five molecular mesogens containing phenyl rings and thiophene are subjected to a detailed 13 C NMR investigation. The first mesogen contains only phenyl rings, while the other four have thiophene with substitution at position 2 or 3. Two of these also have a spacer inserted between the thiophene and the rest of the core unit. The mesophase properties evaluated by complementary techniques reveal an enantiotropic nematic phase for all the cases and smectic C as well as Crystal J for a few mesogens. In addition to solution 13 C NMR, the samples were studied using 1D and 2D solid-state 13 C NMR experiments in the liquid crystalline phase. The chemical shifts and 13 C- 1 H dipolar couplings obtained in the mesophase provided cutting-edge information about the molecular structure and orientation of the thiophene mesogens. Accordingly, dramatic differences in these parameters are noted for the mesogens, and consequently, the identification of 2- and 3-substituted thiophene mesogens is accomplished by a simple visual examination of the 2D spectra. Furthermore, for mesogens with a spacer between thiophene and the rest of the core, 13 C chemical shifts and 13 C- 1 H dipolar couplings showed remarkable variation, which was directly reflected in the order parameters. For instance, the order parameter (S zz ) of thiophene in 2- and 3-substituted mesogens in which the spacer is absent is ∼0.63 whereas for those with spacer, it is reduced to ∼0.14-0.18. In comparison, the mesogen in which the core unit is made up of phenyl rings alone that is used to benchmark the characteristics of thiophene ordering showed an order parameter of ∼0.85. The study unambiguously demonstrates the supremacy of 13 C NMR in extracting the structural and orientational information on mesogens in which thiophene is a constituent of the core unit.

Published

2023

4. Organocatalyzed Modular Synthesis of Polycyclic Dihydropyridines and Pyridines through Sulfamate Linchpin.

Author

Bhajammanavar V, Sureshbabu P, Kesava Reddy M, and Baidya M

Subjects

Catalysis, Imines, Sulfonic Acids, Dihydropyridines, Pyridines

Abstract

The cascade annulation between alkylidene malononitriles and cyclic sulfamidate imines has been controlled by leveraging the sulfamate functionality under organocatalysis, which allows selective access to polycyclic and densely functionalized dihydropyridines and pyridines in high yields. The protocol is scalable and shows broad substrate scope. The products were also engaged in the preparation of tetracyclic pyridopyrimidines, showcasing the synthetic versatility., (© 2022 Wiley-VCH GmbH.)

Published

2022