Experimental and DFT Investigation of 6‐arylated‐pyridin‐3‐yl methanol Derivatives

An investigation based on synthesis of 6‐arylated‐pyridine‐3‐yl)methanol derivatives: 6‐(2‐benzofuranyl)pyridin‐3‐yl)methanol (BFPM), (6‐([biphenyl]‐4‐yl)3‐pyridinyl methanol (BPPM), 6‐(3‐Flourophenyl)‐4‐pyridine‐methanol (FPPM), and 6‐(4‐Chlorophenyl)‐4‐pyridine‐methanol (CPPM) compounds is present...

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Veröffentlicht in:ChemistrySelect (Weinheim) 2024-01, Vol.9 (4), p.n/a
Hauptverfasser: Ahmed, Adnan, Adeel, Muhammad, Niaz, Shanawer, Raouf, Abdul, Aiman, Ume, Abdullah Bin Shaffiq, Muhammad, Ramay, Shahid M., Mushtaq, Irfan
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container_issue 4
container_start_page
container_title ChemistrySelect (Weinheim)
container_volume 9
creator Ahmed, Adnan
Adeel, Muhammad
Niaz, Shanawer
Raouf, Abdul
Aiman, Ume
Abdullah Bin Shaffiq, Muhammad
Ramay, Shahid M.
Mushtaq, Irfan
description An investigation based on synthesis of 6‐arylated‐pyridine‐3‐yl)methanol derivatives: 6‐(2‐benzofuranyl)pyridin‐3‐yl)methanol (BFPM), (6‐([biphenyl]‐4‐yl)3‐pyridinyl methanol (BPPM), 6‐(3‐Flourophenyl)‐4‐pyridine‐methanol (FPPM), and 6‐(4‐Chlorophenyl)‐4‐pyridine‐methanol (CPPM) compounds is presented in this study. Furthermore, a comparison of experimental spectroscopic data (NMR, FTIR, UV‐Vis), structural factors, nonlinear optical characteristics with theoretical frontier molecular orbital analysis, natural population analysis, natural bond orbitals analysis of pyridine derivatives is drawn using density functional theory (DFT) and time‐dependent density functional theory (TD‐DFT) at the B3LYP/6‐311+G (2d,p) level of theory was used. Therefore, the DFT‐based findings and experimental data were in perfect accord. By using NBO analysis, it has been possible to understand how charge delocalization and HP interactions contribute to molecule stability. Moreover, the FMO energy levels were used to calculate global reaction characteristics, which showed that FPPM with the highest ▵ELUMO – HOMO of 4.91 eV, was less reactive and more stable than BFPM, BPPM, and CPPM. Compared to the prototype compound, NLO studies revealed that BFPM, BPPM, FPPM, and FPPM exhibit better characteristics, revealing their potential for use in photoelectric technology. The 6‐arylated‐pyridin‐3‐yl methanol derivatives are synthesized and characterized by FTIR, 1H NMR, 13C NMR, and UV‐Visible spectrometer methods. The DFT results are in fair agreement with the experiment. Furthermore, the compounds are stable according to the NBO and also exhibit a strong NLO response when contrasted to the prototype compound. The average polarizability‘s downward trend is FPPM>CPPM>BFPM>BPPM.
doi_str_mv 10.1002/slct.202302917
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Furthermore, a comparison of experimental spectroscopic data (NMR, FTIR, UV‐Vis), structural factors, nonlinear optical characteristics with theoretical frontier molecular orbital analysis, natural population analysis, natural bond orbitals analysis of pyridine derivatives is drawn using density functional theory (DFT) and time‐dependent density functional theory (TD‐DFT) at the B3LYP/6‐311+G (2d,p) level of theory was used. Therefore, the DFT‐based findings and experimental data were in perfect accord. By using NBO analysis, it has been possible to understand how charge delocalization and HP interactions contribute to molecule stability. Moreover, the FMO energy levels were used to calculate global reaction characteristics, which showed that FPPM with the highest ▵ELUMO – HOMO of 4.91 eV, was less reactive and more stable than BFPM, BPPM, and CPPM. Compared to the prototype compound, NLO studies revealed that BFPM, BPPM, FPPM, and FPPM exhibit better characteristics, revealing their potential for use in photoelectric technology. The 6‐arylated‐pyridin‐3‐yl methanol derivatives are synthesized and characterized by FTIR, 1H NMR, 13C NMR, and UV‐Visible spectrometer methods. The DFT results are in fair agreement with the experiment. Furthermore, the compounds are stable according to the NBO and also exhibit a strong NLO response when contrasted to the prototype compound. 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Furthermore, a comparison of experimental spectroscopic data (NMR, FTIR, UV‐Vis), structural factors, nonlinear optical characteristics with theoretical frontier molecular orbital analysis, natural population analysis, natural bond orbitals analysis of pyridine derivatives is drawn using density functional theory (DFT) and time‐dependent density functional theory (TD‐DFT) at the B3LYP/6‐311+G (2d,p) level of theory was used. Therefore, the DFT‐based findings and experimental data were in perfect accord. By using NBO analysis, it has been possible to understand how charge delocalization and HP interactions contribute to molecule stability. Moreover, the FMO energy levels were used to calculate global reaction characteristics, which showed that FPPM with the highest ▵ELUMO – HOMO of 4.91 eV, was less reactive and more stable than BFPM, BPPM, and CPPM. Compared to the prototype compound, NLO studies revealed that BFPM, BPPM, FPPM, and FPPM exhibit better characteristics, revealing their potential for use in photoelectric technology. The 6‐arylated‐pyridin‐3‐yl methanol derivatives are synthesized and characterized by FTIR, 1H NMR, 13C NMR, and UV‐Visible spectrometer methods. The DFT results are in fair agreement with the experiment. Furthermore, the compounds are stable according to the NBO and also exhibit a strong NLO response when contrasted to the prototype compound. 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Furthermore, a comparison of experimental spectroscopic data (NMR, FTIR, UV‐Vis), structural factors, nonlinear optical characteristics with theoretical frontier molecular orbital analysis, natural population analysis, natural bond orbitals analysis of pyridine derivatives is drawn using density functional theory (DFT) and time‐dependent density functional theory (TD‐DFT) at the B3LYP/6‐311+G (2d,p) level of theory was used. Therefore, the DFT‐based findings and experimental data were in perfect accord. By using NBO analysis, it has been possible to understand how charge delocalization and HP interactions contribute to molecule stability. Moreover, the FMO energy levels were used to calculate global reaction characteristics, which showed that FPPM with the highest ▵ELUMO – HOMO of 4.91 eV, was less reactive and more stable than BFPM, BPPM, and CPPM. Compared to the prototype compound, NLO studies revealed that BFPM, BPPM, FPPM, and FPPM exhibit better characteristics, revealing their potential for use in photoelectric technology. The 6‐arylated‐pyridin‐3‐yl methanol derivatives are synthesized and characterized by FTIR, 1H NMR, 13C NMR, and UV‐Visible spectrometer methods. The DFT results are in fair agreement with the experiment. Furthermore, the compounds are stable according to the NBO and also exhibit a strong NLO response when contrasted to the prototype compound. The average polarizability‘s downward trend is FPPM&gt;CPPM&gt;BFPM&gt;BPPM.</abstract><doi>10.1002/slct.202302917</doi><tpages>13</tpages><orcidid>https://orcid.org/0000-0003-2427-4228</orcidid></addata></record>
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NBO-NPA
Substituted pyridine
Suzuki-Miyaura Coupling
title Experimental and DFT Investigation of 6‐arylated‐pyridin‐3‐yl methanol Derivatives
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