Ethylenediamine acetate

Honey alumina and AG MP-1 column cleanup, derivatization with N-(1 - naphthyl)- ethylenediamine Acetate buffer, pH 1 - - Fourth- 76-98% 3 ppm/ 212... 

Compared with low-molecular weight model compounds such as ethylenediamine acetic acid (EDAA), aminobutyric acid and pentylamine, the hydrolysis rate is somewhat higher in the presence of polyampholytes due to the high local density of the macromolecular functional groups. Here it is also possible to follow the effect of hydrophobicity of amphoteric macromolecules on the rate of the process PBA exhibits a stronger catalyzing effect than the other test catalysts. 

Ethylenediamine acetic acid trisodium salt. See Trisodium EDTA... 

Fernandez-Suarez and coworkers investigated a domino reaction using a glass microreactor with a channel 74 pm in width [33]. The reaction of citronellal with 1,3-dimethylbarbituric add, in the presence of ethylenediamine acetate (HDDA) and a residence time of 360 s, gave the tricydic compound in 68% yield. Knoevenagel condensation and intramolecular Diels-Alder reaction took place subsequently (Scheme 5.23), and the syntheses of three different cycloadducts in parallel were also demonstrated. 

Hydrogen chloride Acetic anhydride, aluminum, 2-aminoethanol, ammonia, chlorosulfonic acid, ethylenediamine, fluorine, metal acetylides and carbides, oleum, perchloric acid, potassium permanganate, sodium, sulfuric acid... 

Bisamides. Methylenebisamides are prepared by the reaction of the primary fatty amide and formaldehyde in the presence of an acid catalyst. AijAT-Methylenebisoleamide has been made via this route without the use of refluxing solvent (55). Polymethylenebisamides can be made from fatty acid, esters, or acid haUdes with diamines while producing water, alcohol, or mineral acid by-products. Eatty acids and diamines, typically ethylenediamine, have been condensed in the presence of NaBH and NaH2P02 to yield bisamides (56). When stearic acid, ethylenediamine, and methyl acetate react for 6 h at... 

Ammonium acetate and sodium methoxide are effective catalysts for the ammonolysis of soybean oil (49). Polyfunctional amines and amino alcohols such as ethylenediamine, ethanolamine, and diethanolamine react to give useful intermediates. Ethylenediamine can form either a monoamide or a diamide depending on the mole ratio of reactants. With an equimolar ratio of reactants and a temperature of >250° C, a cyclization reaction occurs to give imidazolines with ethylenediamine (48) ... 

Ethylenediamine, CH3CN, THE, EtOH, 60°. The phthalimide group and O-acetate are not cleaved with this reagent. ... 

Highly stereospecific hydrogenations of acetylenes to cis olefins have been achieved also with nickel (P 2) catalysts in the presence of ethylenediamine as prorrtoter (37 8 55 58,72). The catalyst is prepared by reduction of nickel acetate in ethanol with sodium borohydridefi ). Despite successes (44), the use of nickel is relatively infrequent (51). 

Note Other aromatic amines, e. g. 1- or 2-naphthylamine in acetic acid solution (Griess reagent), can be used as coupling agent instead of N-(l-naphthyl)-ethylenediamine ... 

Part of the LPS may be removed by treating the cells with ethylenediamine tetra-acetic acid (EDTA) or related chelating agents (Chapter 12). 

Chelators, especially ethylenediamine tetra-acetic acid (EDTA), have been used as potentiators of the aetion of ehloroxylenol. Vaara has extensively reviewed the subject of permeabilization and Ayres, Furr and Russell have described a rapid method of evaluating the permeabilizahon of Ps. aeruginosa (see Further Reading, Sechon 6). 

The presence of ligands, either in the form of added anions such as acetate or as co-solvents or solvents, such as pyridine, markedly affect the kinetics. In pyridine or dodecylamine solvents the hydrogenation of Ag(I) acetate follows simple second-order kinetics, as does that of Cu(I) acetate. This behaviour is also shown in aqueous solutions by Ag(I) in the presence of acetate ions and by an ethylenediamine complex of Ag(I) . The rate of hydrogenation of Cu(II) acetate, on the other hand, is independent of oxidant concentration. The rate of oxidation of hydrogen by Cu(II) acetate in quinoline is also independent of oxidant concentration , but does depend on the square of the concentration of cuprous acetate which acts as a catalyst. For further details of these complicating features, reference should be made to the original papers and to Hal-pern s review ... 

An interesting study examined the anodic oxidation of EDTA at alkaline pH on a smooth platinum electrode (Pakalapati et al. 1996). Degradation was initiated by removal of the acetate side chains as formaldehyde, followed by deamination of the ethylenediamine that formed glyoxal and oxalate. Oxalate and formaldehyde are oxidized to CO2, and adsoption was an integral part of the oxidation. 

Fig. 4.1. Potential ranges of solvents, (a) h.n.p.s of acids. I, Acetic acid II, benzoic acid III, formic acid IV, salicylic acid V, sulphuric acid VI, p-toluenesulphonic acid, (b) h.n.p.s of conjugate acids of I, n-butylamine II, piperidine III, ethylenediamine (1) IV, ammonia V, ethylenediamine (2) VI, pyridine.

ETHYLENE GLYCOL ETHYL MERCAPTAN DIMETHYL SULPHIDE ETHYL AMINE DIMETHYL AMIDE MONOETHANOLAMINE ETHYLENEDIAMINE ACRYLONITRILE PROPADIENE METHYL ACETYLENE ACROLEIN ACRYLIC ACID VINYL FORMATE ALLYL CHLORIDE 1 2 3-TRICHLOROPROPANE PROPIONITRILE CYCLOPROPANE PROPYLENE 1 2-DICHLOROPROPANE ACETONE ALLYL ALCOHOL PROPIONALDEHYDE PROPYLENE OXIDE VINYL METHYL ETHER PROPIONIC ACID ETHYL FORMATE METHYL ACETATE PROPYL CHLORIDE ISOPROPYL CHLORIDE PROPANE... 

Di-t-butyl phosphate complexes of zinc were synthesized as precursors for ceramic material formation. A tetrameric zinc complex was characterized from the treatment of zinc acetate with the phosphate resulting in a compound with a bridging oxo at the center, [Zn4(/i4-0)(di-t-butyl phosphate)6]. In the presence of auxiliary donor ligands such as imidazole or ethylenediamine, monomeric complexes are formed, [Zn(di-t-butyl phosphate)2(imidazole)4]. It is also possible to convert the tetramer into the monomer by treating with a large excess of imidazole.41... 

Ar,A,-bis(2-hydroxybenzyl)-ethylenediamine-A,A, -diacetic acid (HBED) and IV-hydroxybenzyl-ethylenediam i ne- A-, A", N -iri acetic acid (HBET) are multidentate ligands investigated for coordination with gallium and indium (Figure l).78 HBED, with its two phenolate donor groups, led to increased stability constants over HBET. 

As discussed in Section 7.1.4, polymer-bound acetoacetates can be used as precursors for the solid-phase synthesis of enones [33], For these Knoevenagel condensations, the crucial step is to initiate enolization of the CH acidic component. In general, enolization can be initiated with a variety of catalysts (for example, piperidine, piperidinium acetate, ethylenediamine diacetate), but for the microwave-assisted procedure piperidinium acetate was found to be the catalyst of choice, provided that the temperature was kept below 130 °C. At higher reaction temperatures, there is significant cleavage of material from the resin. 

Cobalt(II), ethylenediamine tetraacetate Acetic acid/Ethylbenzene 333 3.8 X 105 [131]... 

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