Article: Computational analysis of alkoxy-azoxybenzene liquid crystals: a comparative investigation with experimental data for bioinformatics applications Journal: International Journal of Bioinformatics Research and Applications (IJBRA) 2025 Vol.21 No.2 pp.171 - 184 Abstract: Through computational modelling, we have gained valuable insights into the homologous series of liquid crystalline materials. Our study involved comparing the computational results with reported experimental values for several members of the series. We focused on various parameters, including lattice energy, orientational order parameter, moduli, stress-strain behaviour, Helmholtz free energy, orientational distribution function, zero-point energy, and molecular polarisabilities. The primary motivation behind this study was to unravel the intricate inter- and intra-molecular interactions that govern the range and nature of mesophases observed in these compounds. We are excited to report that our results align with this objective, highlighting the significance of our findings in this direction. Knowledge of these compounds finds applications in sensitive nucleic acid detection, label-free protein analysis, and the development of biocompatible sensors for real-time cellular monitoring. Inderscience Publishers - linking academia, business and industry through research

Title: Computational analysis of alkoxy-azoxybenzene liquid crystals: a comparative investigation with experimental data for bioinformatics applications

Authors: M. Sushma; J. Mahadeva; Manju Varanchi Venkata Shetty; M.B. Nandaprakash; R. Somashekar

Addresses: Department of Physics, Yuvaraja's College, University of Mysore, Mysuru, 570005, India ' Department of Physics, PES College of Science, Arts and Commerce, PET Research Foundation, Mandya, 571402, India; Affiliated to: University of Mysuru, India ' Department of Physics, Vidyavardhaka College of Engineering, Mysuru, 570002, India; Affiliated to: VTU, India ' Department of Physics, Karnataka State Open University, Mukthagangothri, Mysuru, 570006, India ' Regional Institute of Education and Center for Material Science, Vijnana Bhavan, Manasagangotri, University of Mysore, Mysuru, 570017, India

Abstract: Through computational modelling, we have gained valuable insights into the homologous series of liquid crystalline materials. Our study involved comparing the computational results with reported experimental values for several members of the series. We focused on various parameters, including lattice energy, orientational order parameter, moduli, stress-strain behaviour, Helmholtz free energy, orientational distribution function, zero-point energy, and molecular polarisabilities. The primary motivation behind this study was to unravel the intricate inter- and intra-molecular interactions that govern the range and nature of mesophases observed in these compounds. We are excited to report that our results align with this objective, highlighting the significance of our findings in this direction. Knowledge of these compounds finds applications in sensitive nucleic acid detection, label-free protein analysis, and the development of biocompatible sensors for real-time cellular monitoring.

Keywords: liquid crystal; odd-even effect; elastic moduli.

DOI: 10.1504/IJBRA.2025.145101

International Journal of Bioinformatics Research and Applications, 2025 Vol.21 No.2, pp.171 - 184

Received: 23 Jan 2024
Accepted: 21 May 2024
Published online: 19 Mar 2025 *

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Title: Computational analysis of alkoxy-azoxybenzene liquid crystals: a comparative investigation with experimental data for bioinformatics applications

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