Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2021, Cilt: 8 Sayı: 2, 209 - 223, 31.12.2021
https://doi.org/10.48138/cjo.972212

Öz

Proje Numarası

HZL-2014/5

Kaynakça

  • Apostolova M. D., Nikolova R. P., Shivachev B. L., (2010), (4-Carbamoylphenyl)boronic acid, Acta Crystallographica Section E Crystallographic Communications 66, 1273-1279.
  • Becke A.D., (1993), Density-functional thermochemistry. III. The role of exact exchange, Jounal of Chemical Physics 98, 5648-5652.
  • Erdogdu Y., Güllüoǧlu M., Kurt M., (2009), DFT, FT‐Raman, FT‐IR and NMR studies of 2‐fluorophenylboronic acid, Journal of Raman Spectroscopy, 40(11), 1615-1623, Hall D.G., (2006), Structure, properties, and preparation of boronic acid derivatives. Overview of their reactions and applications. Boronic acids: preparation and applications in organic synthesis and medicine, Wiley Online library.
  • Hehre, W., J., SPARTAN’14, (2014), Wavefunction Inc. Irvine CA, USA
  • Hehre W. J., (2014), “SPARTAN’14 Tutorial and User's Guide”, Wavefunction, Inc.
  • Jensen F., (2017), Introduction to Computational Chemistry, Wiley
  • Kar A., (2003), Pharmacognosy and Pharmacobiotechnology, New Age International (P) Ltd., Publishers New Delhi
  • Karabacak M, Kose E, Atac A, Cipiloglu Ma, Kurt M., (2012), Molecular structure investigation and spectroscopic studies on 2,3-difluorophenylboronic acid: A combined experimental and theoretical analysis. Spectrochimica Acta - Part A: Molecular and Biomolecular Spectroscopy, 97, 892-908,
  • Lee C., Yang W., Parr R.G., (1998), Development of the Colle-Salvetti correlation-energy formula into a functional of the electron density, Physical Review B - Condensed Matter and Materials Physics 37 785-799
  • Lu, G.-P.; Voigtritter, K. R.; Cai, C.; Lipshutz, B. H., (2012), Ligand Effects on the Stereochemical Outcome of Suzuki–Miyaura Couplings. Journal Organic Chemistry, 77(8), 3700-3703,
  • Onishi T., (2018 ), “Quantum Computational Chemistry: Modelling and Calculation for Functional Materials”, Springer-Singapore, pp. 49‒53
  • Pearson R.G., (2005), Chemical hardness and density functional theory, Chemical Science Journal, 117(5), 369-377,
  • Peter K., Vollhardt C., Schore N. E., (2011), Organic chemistry: structure and function, 6th ed. Freeman&Comp. NY-US.
  • Rani U, Karabacak M, Tanrıverdi O, Kurt M, Sundaraganesan N., (2012), The spectroscopic (FTIR, FT-Raman, NMR and UV), first-order hyperpolarizability and HOMO-LUMO analysis of methyl boronic acid. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 92(15), 67-77
  • Sachan Ak, Pathak Sk, Sinha L, Prasad O, Karabacak M, Asiri A.M., A, (2014), combined experimental and theoretical investigation of 2-Thienylboronic acid: Conformational search, molecular structure, NBO, NLO and FT-IR, FT-Raman, NMR and UV spectral analysis. Journal of Molecular Structucture, 1076, 639-650,
  • Şahin Z. S., Kaya Kantar G., Şaşmaz S., Büyükgüngör O., (2015), Synthesis, molecular structure, spectroscopic analysis, thermodynamic parameters and molecular modeling studies of (2-methoxyphenyl)oxalate, Journal of Molecular Structucture, 1087, 104-112.
  • Silverstein R.M., Webster F.X., Kıemle D.J., (2005), Spectrometric Identification of Organic Compounds 7th Ed. John Wiley Sons INC.
  • Tjarks W., Anisuzzaman A.K., Liu L., Soloway S.H., Barth R.F., Perkins D.J., Adams D.M., (1992), Synthesis and in vitro evaluation of boronated uridine and glucose derivatives for boron neutron capture therapy. Journal Medicinal Chemistry, 35, 1628-1633
  • URL1.https://www.sigmaaldrich.com/catalog/product/aldrich/683876?lang=en&region=TR (03.26.2020)
  • Zepeda-Velazquez L. C., (2015), Synthesis and characterization of novel stimuli-responsive silicone-boronic acid materials, (Unpublished doctoral dissertation), McMaster University Hamilton, Ontario.
  • Zheng H., Ghanbari S., Nakamura S., Hall D.G., (2012), Boronic Acid Catalysis as a Mild and Versatile Strategy for Direct Carbo- And Heterocyclizations of Free Allylic Alcohols, Angewandte Chemie Int. Ed., 51(25), 6187-6190,
  • Zheng H., Lejkowski M., Hall D.G., (2011), Mild and selective boronic acid-catalyzed 1,3-transposition of allylic alcohols and Meyer–Schuster rearrangement of propargylic alcohols, Chemical Science Journal, 2(7), 1305-1310,

(4-Carbamoylphenyl)Boronic Acid: A DFT Study On The Structural And Spectral Properties

Yıl 2021, Cilt: 8 Sayı: 2, 209 - 223, 31.12.2021
https://doi.org/10.48138/cjo.972212

Öz

Title compound; CAPBA was analyzed via computational methods using the DFT method in the B3LYP level and 6.31G* basis set. The SPARTAN-14 software was used for computational analysis. The calculated results were compared to experimental values from the literature. Bond lengths, bond angles, dihedral angles and electronic properties were investigated and explicated according to spectroscopic knowledge. The calculated values and experimental results were observed to be in perfect agreement in an error margin between 0,1% and 3%.

Destekleyen Kurum

Bursa Uludağ University, Pamukkale University,

Proje Numarası

HZL-2014/5

Kaynakça

  • Apostolova M. D., Nikolova R. P., Shivachev B. L., (2010), (4-Carbamoylphenyl)boronic acid, Acta Crystallographica Section E Crystallographic Communications 66, 1273-1279.
  • Becke A.D., (1993), Density-functional thermochemistry. III. The role of exact exchange, Jounal of Chemical Physics 98, 5648-5652.
  • Erdogdu Y., Güllüoǧlu M., Kurt M., (2009), DFT, FT‐Raman, FT‐IR and NMR studies of 2‐fluorophenylboronic acid, Journal of Raman Spectroscopy, 40(11), 1615-1623, Hall D.G., (2006), Structure, properties, and preparation of boronic acid derivatives. Overview of their reactions and applications. Boronic acids: preparation and applications in organic synthesis and medicine, Wiley Online library.
  • Hehre, W., J., SPARTAN’14, (2014), Wavefunction Inc. Irvine CA, USA
  • Hehre W. J., (2014), “SPARTAN’14 Tutorial and User's Guide”, Wavefunction, Inc.
  • Jensen F., (2017), Introduction to Computational Chemistry, Wiley
  • Kar A., (2003), Pharmacognosy and Pharmacobiotechnology, New Age International (P) Ltd., Publishers New Delhi
  • Karabacak M, Kose E, Atac A, Cipiloglu Ma, Kurt M., (2012), Molecular structure investigation and spectroscopic studies on 2,3-difluorophenylboronic acid: A combined experimental and theoretical analysis. Spectrochimica Acta - Part A: Molecular and Biomolecular Spectroscopy, 97, 892-908,
  • Lee C., Yang W., Parr R.G., (1998), Development of the Colle-Salvetti correlation-energy formula into a functional of the electron density, Physical Review B - Condensed Matter and Materials Physics 37 785-799
  • Lu, G.-P.; Voigtritter, K. R.; Cai, C.; Lipshutz, B. H., (2012), Ligand Effects on the Stereochemical Outcome of Suzuki–Miyaura Couplings. Journal Organic Chemistry, 77(8), 3700-3703,
  • Onishi T., (2018 ), “Quantum Computational Chemistry: Modelling and Calculation for Functional Materials”, Springer-Singapore, pp. 49‒53
  • Pearson R.G., (2005), Chemical hardness and density functional theory, Chemical Science Journal, 117(5), 369-377,
  • Peter K., Vollhardt C., Schore N. E., (2011), Organic chemistry: structure and function, 6th ed. Freeman&Comp. NY-US.
  • Rani U, Karabacak M, Tanrıverdi O, Kurt M, Sundaraganesan N., (2012), The spectroscopic (FTIR, FT-Raman, NMR and UV), first-order hyperpolarizability and HOMO-LUMO analysis of methyl boronic acid. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 92(15), 67-77
  • Sachan Ak, Pathak Sk, Sinha L, Prasad O, Karabacak M, Asiri A.M., A, (2014), combined experimental and theoretical investigation of 2-Thienylboronic acid: Conformational search, molecular structure, NBO, NLO and FT-IR, FT-Raman, NMR and UV spectral analysis. Journal of Molecular Structucture, 1076, 639-650,
  • Şahin Z. S., Kaya Kantar G., Şaşmaz S., Büyükgüngör O., (2015), Synthesis, molecular structure, spectroscopic analysis, thermodynamic parameters and molecular modeling studies of (2-methoxyphenyl)oxalate, Journal of Molecular Structucture, 1087, 104-112.
  • Silverstein R.M., Webster F.X., Kıemle D.J., (2005), Spectrometric Identification of Organic Compounds 7th Ed. John Wiley Sons INC.
  • Tjarks W., Anisuzzaman A.K., Liu L., Soloway S.H., Barth R.F., Perkins D.J., Adams D.M., (1992), Synthesis and in vitro evaluation of boronated uridine and glucose derivatives for boron neutron capture therapy. Journal Medicinal Chemistry, 35, 1628-1633
  • URL1.https://www.sigmaaldrich.com/catalog/product/aldrich/683876?lang=en&region=TR (03.26.2020)
  • Zepeda-Velazquez L. C., (2015), Synthesis and characterization of novel stimuli-responsive silicone-boronic acid materials, (Unpublished doctoral dissertation), McMaster University Hamilton, Ontario.
  • Zheng H., Ghanbari S., Nakamura S., Hall D.G., (2012), Boronic Acid Catalysis as a Mild and Versatile Strategy for Direct Carbo- And Heterocyclizations of Free Allylic Alcohols, Angewandte Chemie Int. Ed., 51(25), 6187-6190,
  • Zheng H., Lejkowski M., Hall D.G., (2011), Mild and selective boronic acid-catalyzed 1,3-transposition of allylic alcohols and Meyer–Schuster rearrangement of propargylic alcohols, Chemical Science Journal, 2(7), 1305-1310,
Toplam 22 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Çevre Bilimleri
Bölüm Caucasian Journal of Science
Yazarlar

Ahmet Kunduracıoğlu 0000-0002-6421-9912

Proje Numarası HZL-2014/5
Yayımlanma Tarihi 31 Aralık 2021
Gönderilme Tarihi 16 Temmuz 2021
Kabul Tarihi 28 Aralık 2021
Yayımlandığı Sayı Yıl 2021 Cilt: 8 Sayı: 2

Kaynak Göster

APA Kunduracıoğlu, A. (2021). (4-Carbamoylphenyl)Boronic Acid: A DFT Study On The Structural And Spectral Properties. Caucasian Journal of Science, 8(2), 209-223. https://doi.org/10.48138/cjo.972212

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