20406-39-7Relevant academic research and scientific papers
Biocatalytic Promiscuity of Lipases in Carbon-Phosphorus Bond Formation
Koszelewski, Dominik,Ostaszewski, Ryszard
, p. 2554 - 2558 (2019/04/30)
A promiscuous lipase-catalyzed carbon-phosphorus bond formation is presented. The developed enzymatic Pudovik-Abramov reaction of various aromatic and aliphatic aldehydes with dialkyl phosphonates provides biologically and pharmacologically relevant α-hyd
Ultrasound assisted green synthesis of α-hydroxyphosphonates under solvent-free conditions
Bouzina, Abdeslem,Aouf, Nour-eddine,Berredjem, Malika
, p. 5993 - 6002 (2016/06/01)
Abstract: A simple, efficient and environmentally benign method for the synthesis of α-hydroxyphosphonates by reaction of an aldehyde or a ketone, and trialkylphosphite is effectively accomplished under ultrasound irradiation and solvent-free and catalyst
Synthesis and insecticidal activities of O,O-dialkyl-2-[3-bromo-1-(3-chloropyridin-2-yl)-1H-pyrazole-5-carbonyloxy] (aryl) methylphosphonates
Wang, Wei,Wang, Lie-Ping,Ning, Bin-Ke,Mao, Ming-Zhen,Xue, Chao,Wang, Hai-Yang
, p. 1362 - 1367 (2016/09/28)
A series of novel O,O-Dialkyl-2-[3-bromo-1-(3-chloropyridin-2-yl)-1H-pyrazole-5-carbonyloxy](aryl) methy-lphosphonates I-1–14 were designed and synthesized. The structures of all the title compounds were confirmed by 1H-NMR, 13C-NMR, 31P-NMR, IR and elemental analysis. Their insecticidal activities against Mythimna separata and Plutella xylostella were evaluated. The results of bioassays indicated that the title compounds exhibited 20–80% larvicidal activity against Mythimna separata at 1000?mg/L.
Magnetic Fe3O4 nanoparticle-supported phosphotungstic acid as a recyclable catalyst for the kabachnik-fields reaction of isatins, imines, and aldehydes under solvent-free conditions
Nazish, Mohd,Saravanan,Khan, Noor-Ul H.,Kumari, Prathibha,Kureshy, Rukhsana I.,Abdi, Sayed H. R.,Bajaj, Hari C.
, p. 1753 - 1760 (2015/02/02)
Magnetic-nanoparticle-supported phosphotungstic acid has been used to efficiently catalyze the hydrophosphonylation reaction of isatins, imines, and aldehydes using dimethyl and diethyl phosphite as a nucleophile to give the corresponding α-hydroxy and α-amino phosphonates in excellent yields for a wide range of substrates. The reaction conditions were simple, green, and efficient. The catalyst was recycled up to five times with retention of its activity. Based on the NMR spectroscopy studies, a probable catalytic cycle was proposed.
Synthesis, characterization and catalytic properties of magnetic nanoparticle supported guanidine in base catalyzed synthesis of α-hydroxyphosphonates and α-acetoxyphosphonates
Rostami, Amin,Atashkar, Bahareh,Moradi, Darush
, p. 7 - 16 (2013/08/23)
Magnetic nanoparticle Fe3O4-immobilized guanidine (MNPs-Guanidine) as a novel magnetically interphase nanocatalyst was synthesized and characterized. MNPs-Guanidine catalyzed the synthesis of α-hydroxyphosphonates from aldehydes and
Synthesis and antimicrobial activity of bisphosphonates
Reddy, M.Veera Narayana,Reddy, K.R. Kishore Kumar,Reddy, C.Bhupendra,Kumar, B.Siva,Reddy, C.Suresh,Reddy, C.Devendranath
experimental part, p. 258 - 260 (2009/12/03)
Dimethyl [(substitutedphenyl)(6-oxo6λ5dibenzo[d,f][1,3,2] dioxaphophepin-6-yl)methyl]phosphonates (5a-j) were synthesised through a three step process involving preparation of dimethyl hydroxy(substitutedphenyl) methylphosphonates (4a-j) and their reactio
Phospho-transfer catalysis on the asymmetric hydrophosphonylation of aldehydes
Davies, Stephen R.,Mitchell, Michael C.,Cain, Christopher P.,Devitt, Paul G.,Taylor, Roger J.,Kee, Terence P.
, p. 29 - 57 (2007/10/03)
We report here a precise, in situ 31P{1H}-NMR method of assaying enantiopurity of α-hydroxyphosphonate esters, the products of the carbonyl hydrophosphonylation (Pudovik) reaction. This method is based upon a diazaphospholidine chiral derivatising agent (CDA) which satisfies all of the criteria for a precise assay; (i) derivatisation of α-hydroxyphosphonate esters is both rapid and clean, (ii) kinetic resolution is absent and (iii) 31P{1H} chemical shift dispersions are excellent (> 5ppm). Calibration of this assay has been achieved by cross-referencing the 31P{1H}-NMR signals obtained for the CDA-derivatised ester of (MeO)2PC=O)CHPh(OH) to optical rotation measurements from scalemic material obtained upon lipase catalysed hydrolysis (F-AP 15, Rhizopus oryzae) of (MeO)2P(=O)CHPh(OAc). Analysis of NMR chemical shift and coupling parameters for a closely related series of derivatised α-hydroxyphosphonate esters support further configuration assignments on the basis of inference. We report also on the configurational stability of α-hydroxyphosphonate esters in the presence of acids, organonitrogen bases and metal salts. 2H-labelling and carbonyl crossover experiments reveal that low levels of epimerisation (α) of α-hydroxyphosphonate esters is possible under certain conditions of catalysis and within certain limits. A design strategy for the construction of catalyst systems in the Pudovik reaction is outlined based upon a combination of Lewis acidic (E) and Lewis basic (N) sites. Four types of catalyst are outlined, members of two distinct Classes I and II according to the nature of the acid and base sites, along with our investigations of representative examples of each Class. A variety of Class I.1 systems based on β-amino alcohols (one hydrogen bonding E site and one organonitrogen N site), have been assayed in the model reaction between (MeO)2P(O)H and PhCHO. Results suggest that catalysis of the Pudovik reaction is clean and efficient in certain cases but that catalytic activity is strongly dependent upon the nature of the basic (N) nitrogen centre. Moreover, only low levels ( 50% more strongly (K11 0.53 mol-1 dm3) than dimethyl-H-phosphonate (K11 0.34 mol-1 dm3, 298 K) and to catalyse the hydrophosphonylation reaction between these two substrates with a second order rate constant comparable to that of triethylamine (both k2 5.9 × 10-2 mol-1 dm3 h-1, 293 K). However, one of the major limitations of this model is that competitive product inhibition dominates after some 15 turnovers (75% completion). Model studies reveal that hydrophosphonylation catalysis via a nitrogen Lewis base is accelerated up to 10-fold upon the introduction of [Zn(OSO2CF3)2] as co-catalyst. Consequently, Class II.1 systems employ metal salts [Zn(OSO2CF3)2] as Lewis acidic E sites and chiral co-catalysts capable of binding to the metal and also acting as Lewis basic N sites. Such systems catalyse the addition of (MeO)2P(O)H to PhCHO cleanly with modest turnover numbers (2P(O)H to PhCHO to afford (MeO)2P(O)CHPh(OH) with an average turnover rate (over a 1 h reaction time at 298 K) of 115 h-1 compared to ca. 1 h-1 for NEt3 under analogous conditions. Chiral variants are proposed.
Accurate In Situ 31P Assay of Enantiopurity in α-Hydroxyphosphonate Esters using a Diazaphospholidine Derivatizing Agent
Devitt, Paul G.,Mitchell, Michael C.,Weetman, John M.,Taylor, Roger J.,Kee, Terence P.
, p. 2039 - 2044 (2007/10/03)
A rapid, convenient and efficient in situ assay of enantiomeric excess in α-hydroxyphosphonate esters is reported exploiting 31P NMR analysis of the diastereoisomers formed upon condensation with a phosphorochloridite reagent containing a chiral diazaphospholidine ring.Use of this chiral framework affords chemical shift dispersions > 5 ppm between diastereoisomers, Accurate integrations are thus possible once account is taken of differential n.O.e. effects and spin lattice T1 relaxation times of the phosphorus nuclei.
