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Phosphorus, Sulfur, and Silicon and the Related Elements Volume 194, 2019 - Issue 4-6: Proceedings of the 2018 International Conference on Phosphorus Chemistry, ICPC-22
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Review

Microwave irradiation and catalysis in organophosphorus chemistry

György KeglevichDepartment of Organic Chemistry and Technology, Budapest University of Technology and Economics, Budapest, HungaryCorrespondence[email protected]
,
Nóra Zsuzsa KissDepartment of Organic Chemistry and Technology, Budapest University of Technology and Economics, Budapest, Hungary
,
Erika BálintDepartment of Organic Chemistry and Technology, Budapest University of Technology and Economics, Budapest, Hungary
,
Réka HenyeczDepartment of Organic Chemistry and Technology, Budapest University of Technology and Economics, Budapest, Hungary
,
Alajos GrünDepartment of Organic Chemistry and Technology, Budapest University of Technology and Economics, Budapest, Hungary
&
Zoltán MucsiDepartment of Organic Chemistry and Technology, Budapest University of Technology and Economics, Budapest, Hungary
Pages 391-395 | Received 11 May 2018, Accepted 05 Sep 2018, Published online: 30 Jan 2019

References

  • Kiss, N. Z.; Ludányi, K.; Drahos, L.; Keglevich, G. Novel Synthesis of Phosphinates by the Microwave-Assisted Esterification of Phosphinic Acids. Synth. Commun. 2009, 39, 2392–2404.
  • Keglevich, G.; Balint, E.; Zs. Kiss, N.; Jablonkai, E.; Hegedus, L.; Grun, A.; Greiner, I. Microwave-Assisted Esterification of Phosphinic Acids. Curr. Org. Chem. 2011, 15, 1802–1810.
  • Keglevich, G.; Kiss, N. Z.; Mucsi, Z.; Körtvélyesi, T. Insights into a Surprising Reaction: The Microwave-Assisted Direct Esterification of Phosphinic Acids. Org. Biomol. Chem. 2012, 10, 2011–2018.
  • Kiss, N. Z.; Böttger, É.; Drahos, L.; Keglevich, G. Microwave-Assisted Direct Esterification of Cyclic Phosphinic Acids. Heteroatom Chem. 2013, 24, 283–288.
  • Mucsi, Z.; Kiss, N. Z.; Keglevich, G. A Quantum Chemical Study on the Mechanism and Energetics of the Direct Esterification, Thioesterification and Amidation of 1-Hydroxy-3-Methyl-3-Phospholene 1-Oxide. RSC Adv. 2014, 4, 11948–11954.
  • Kiss, N. Z.; Keglevich, G. Microwave-Assisted Direct Esterification of Cyclic Phosphinic Acids in the Presence of Ionic Liquids. Tetrahedron Lett. 2016, 57, 971–974.
  • Andrianov, K. A.; Kuznetsova, I. K. Izv. Akad. Nauk SSSR, Ser. Khim. 1961, 1454–1456.
  • Godovikov, N. N.; Kardanov, N. A.; Chepaikina, T. A.; Kabachnik, M. I. Izv. Akad. Nauk SSSR, Ser. Khim. 1981, 2824–2828.
  • Golubski, Z. E. Alkylation of Phosphinic Acid Salts in the Presence of Crown Ethers. Synthesis 1980, 1980, 632–634.
  • Bálint, E.; Jablonkai, E.; Bálint, M.; Keglevich, G. Alkylating Esterification of 1‐Hydroxy‐3‐Phospholene Oxides under Solventless MW Conditions. Heteroatom Chem. 2010, 21, 211–214.
  • Keglevich, G.; Grün, A.; Bölcskei, A.; Drahos, L.; Kraszni, M.; Balogh, G. T. Synthesis and Proton Dissociation Properties of Arylphosphonates: A Microwave-Assisted Catalytic Arbuzov Reaction with Aryl Bromides. Heteroatom Chem. 2012, 23, 574–582.
  • Balogh, G. T.; Grün, A.; Lopata, A.; Keglevich, G.; Dargó, G.; Bölcskei, A.; Beni, S.; Szántó, Z. Proton Dissociation Properties of Arylphosphonates: Determination of Accurate Hammett Equation Parameters. J. Pharm. Biomed. Anal. 2017, 143, 101–109.
  • Greiner, I.; Grün, A.; Ludányi, K.; Keglevich, G. Solid-Liquid Two-Phase Alkylation of Tetraethyl Methylenebisphosphonate under Microwave Irradiation. Heteroatom Chem. 2011, 22, 11–14.
  • Keglevich, G.; Grün, A.; Blastik, Z.; Greiner, I. Solid-Liquid Phase Alkylation of P = O-Functionalized CH Acidic Compounds Utilizing Phase Transfer Catalysis and Microwave Irradiation. Heteroatom Chem. 2011, 22, 174–179.
  • Grün, A.; Blastik, Z.; Drahos, L.; Keglevich, G. Microwave-Assisted Alkylation of Diethyl Ethoxycarbonylmethylphosphonate under Solventless Conditions. Heteroatom Chem. 2012, 23, 241–246.
  • Keglevich, G.; Grün, A. Microwave Irradiation as a Substitute for Phase Transfer Catalyst in C-Alkylation Reactions. Curr. Green Chem. 2015, 2, 254–263.
  • Grün, A.; Bálint, E.; Keglevich, G. Solid-Liquid Phase C-Alkylation of Active Methylene Containing Compounds under Microwave Conditions. Catalysts 2015, 5, 634–652.
  • Grün, A.; Blastik, Z.; Drahos, L.; Keglevich, G. Dialkylation of Diethyl Ethoxycarbonylmethylphosphonate under Microwave and Solventless Conditions. Heteroatom Chem. 2014, 25, 107–113.
  • Keglevich, G.; Szekrényi, A. Eco-Friendly Accomplishment of the Extended Kabachnik-Fields Reaction; A Solvent- and Catalyst-free Microwave-assisted Synthesis of α- Aminophosphonates and α-Aminophosphine Oxides. Lett. Org. Chem. 2008, 5, 616–622.
  • Keglevich, G.; Bálint, E. The Kabachnik-Fields Reaction: Mechanism and Synthetic Use. Molecules 2012, 17, 12821–12835.
  • Tajti, Á.; Bálint, E.; Keglevich, G. Synthesis of Ethyl Octyl α-Aminophosphonate Derivatives. Curr. Org. Synth. 2016, 13, 638–645.
  • Bálint, E.; Tóth, R. E.; Keglevich, G. Synthesis of Alkyl α-Aminomethyl-Phenylphosphinates and N,N-Bis(Alkoxyphenylphosphinylmethyl)Amines by the Microwave-Assisted Kabachnik-Fields Reaction. Heteroatom Chem. 2016, 27, 323–335.
  • Bálint, E.; Tajti, Á.; Kalocsai, D.; Mátravölgyi, B.; Karaghiosoff, K.; Czugler, M.; Keglevich, G. Synthesis and Utilization of Optically Active α-Aminophosphonate Derivatives by Kabachnik-Fields Reaction. Tetrahedron 2017, 73, 5659–5667.
  • Bálint, E.; Tripolszky, A.; Jablonkai, E.; Karaghiosoff, K.; Czugler, M.; Mucsi, Z.; Kollár, L.; Pongrácz, P.; Keglevich, G. Synthesis and Use of α-Aminophosphine Oxides and N,N-Bis(Phosphinoylmethyl)Amines – A Study on the Related Ring Platinum Complexes. J. Organomet. Chem. 2016, 801, 111–121.
  • Keglevich, G.; Szekrényi, A.; Szöllősy, Á.; Drahos, L. Synthesis of Bis(Phosphonatomethyl)-, Bis(Phosphinatomethyl)-, and Bis(Phosphinoxidomethyl)Amines, as well as Related Ring Bis(Phosphine) Platinum Complexes. Synth. Commun. 2011, 41, 2265–2272.
  • Bálint, E.; Fazekas, E.; Pinter, G.; Szollosy, A.; Holczbauer, T.; Czugler, M.; Drahos, L.; Körtvélyesi, T.; Keglevich, G. Synthesis and Utilization of the Bis(>P(O)CH2)Amine Derivatives Obtained by the Double Kabachnik–Fields Reaction with Cyclohexylamine; Quantum Chemical and X-Ray Study of the Related Bidentate Chelate Platinum Complexes. Curr. Org. Chem. 2012, 16, 547–554.
  • Bálint, E.; Fazekas, E.; Pongrácz, P.; Kollár, L.; Drahos, L.; Holczbauer, T.; Czugler, M.; Keglevich, G. N-Benzyl and N-Aryl Bis(phospha-Mannich Adducts): Synthesis and Catalytic Activity of the Related Bidentate Chelate Platinum Complexes in Hydroformylation. J. Organomet. Chem. 2012, 717, 75–82.
  • Kovács, T.; Keglevich, G. The Reduction of Tertiary Phosphine Oxides by Silanes. Curr. Org. Chem. 2017, 21, 569–585.
  • Keglevich, G.; Kovács, T.; Csatlós, F. The Deoxygenation of Phosphine Oxides under Green Chemical Conditions. Heteroatom Chem. 2015, 26, 199–205.
  • Kovács, T.; Urbanics, A.; Csatlós, F.; Binder, J.; Falk, A.; Uhlig, F.; Keglevich, G. A Study on the Deoxygenation of Phosphine Oxides by Different Silane Derivatives. Curr. Org. Synth. 2016, 13, 148–153.
  • Kovács, T.; Urbanics, A.; Csatlós, F.; Keglevich, G. A Study on the Deoxygenation of Trialkyl-, Dialkyl-Phenyl- and Alkyl-Diphenyl Phosphine Oxides by Hydrosilanes. Heteroatom Chem. 2017, 28, e21376.
  • Hirao, T.; Masunaga, T.; Yamada, N.; Ohshiro, Y.; Agawa, T. Palladium-Catalyzed New Carbon-Phosphorus Bond Formation. Bull. Chem. Soc. Jap. 1982, 55, 909–913.
  • Hirao, T.; Masunaga, T.; Ohshiro, Y.; Agawa, T. A Novel Synthesis of Dialkyl Arenephosphonates. Synthesis 1981, 1981, 56–57.
  • Jablonkai, E.; Milen, M.; Drahos, L.; Keglevich, G. Esterification of Five-Membered Cyclic Phosphinic Acids under Mild Conditions Using Propylphosphonic Anhydride (T3P®). Tetrahedron Lett. 2013, 54, 5873–6188.
  • Jablonkai, E.; Balázs, L. B.; Keglevich, G. A “Green” Variation of the Hirao Reaction: The P–C Coupling of Diethyl Phosphite, Alkyl phenyl- H -Phosphinates and Secondary Phosphine Oxides with Bromoarenes Using a P-Ligand-Free Pd(OAc) 2 Catalyst under Microwave and Solvent-Free Conditions. RSC Adv. 2014, 4, 22808–22816.
  • Keglevich, G.; Henyecz, R.; Mucsi, Z.; Kiss, N. Z. The Palladium Acetate-Catalyzed Microwave-Assisted Hirao Reaction without an Added Phosphorus Ligand as a “Green” Protocol: A Quantum Chemical Study on the Mechanism. Adv. Synth. Catal. 2017, 359, 4322–4331.

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