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Phosphorus, Sulfur, and Silicon and the Related Elements Volume 178, 2003 - Issue 11
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Original Articles

Dismutation of Diamidoarylphosphites

Edward E. Nifantyev Moscow Pedagogical State University, Moscow, Russia
,
Elena N. Rasadkina Moscow Pedagogical State University, Moscow, Russia
,
Pavel V. Slitikov Moscow Pedagogical State University, Moscow, Russia
&
Larisa K. Vasyanina Moscow Pedagogical State University, Moscow, Russia
Pages 2465-2477 | Published online: 18 Jun 2010

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EdwardE. Nifantyev, ElenaN. Rasadkina, PavelV. Slitikov & LarisaK. Vasyanina. (2005) Dismutation of Bisphosphorylated Aromatic Diols. Phosphorus, Sulfur, and Silicon and the Related Elements 180:2, pages 513-526.
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Articles from other publishers (19)

P V Slitikov. (2019) Thermodynamic aspects of naphthyldiamidophosphite dismutation. Journal of Physics: Conference Series 1348:1, pages 012074.
Crossref
Fei Du, Liyang Yin, Yanqiang Ning & Yungui Peng. (2016) Catalytic Asymmetric Synthesis of Phosphoryl‐1,4‐dihydropyridazines via an Enantioselective Allylic Alkylation/1,3‐Dipolar Cycloaddition/Rearrangement Reaction Sequence . Advanced Synthesis & Catalysis 358:14, pages 2280-2285.
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Dilip K. Pandey, Shrikant M. Khake, Rajesh G. Gonnade & Benudhar Punji. (2015) Mono- and binuclear palladacycles via regioselective C–H bond activation: syntheses, mechanistic insights and catalytic activity in direct arylation of azoles. RSC Advances 5:99, pages 81502-81514.
Crossref
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 880 880 .
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 2164 2164 .
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 2163 2163 .
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 2162 2162 .
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 2161 2161 .
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 209 209 .
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 632 632 .
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 125 125 .
M. Kumar. 2013. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 3787 3787 .
M. Kumar. 2013. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 3767 3767 .
M. Kumar. 2013. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 3766 3766 .
M. Kumar. 2013. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 2911 2911 .
P. V. Slitikov, E. N. Rasadkina, Ya. A. Korunova, L. K. Vasyanina & E. E. Nifant’ev. (2010) Phosphomacrocyclic systems based on 2,2′-dihydroxy-1,1′-dinaphtylmethane. Russian Journal of General Chemistry 80:5, pages 920-926.
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Zoran Dinev, Carlie T. Gannon, Caroline Egan, Jacinta A. Watt, Malcolm J. McConville & Spencer J. Williams. (2007) Galactose-derived phosphonate analogues as potential inhibitors of phosphatidylinositol biosynthesis in mycobacteria. Organic & Biomolecular Chemistry 5:6, pages 952.
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E. N. Rasadkina, P. V. Slitikov, A. I. Stash & E. E. Nifant’ev. (2005) Phosphorylation of 1,4-bis(hydroxymethyl)benzene. Russian Chemical Bulletin 54:2, pages 449-451.
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T. V. Dudakova, M. P. Koroteev, K. A. Lyssenko, M. Yu. Antipin & E. E. Nifant’ev. (2004) Phosphorylation of 3-hydroxy- and 5,7-dihydroxyflavones with hexaethylphosphorous triamide. Russian Chemical Bulletin 53:12, pages 2810-2815.
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