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Methylamine ligand

MePO2- or PME2- (Table XIX), but the open closed equilibrium lies very much on the side of the chelated form of the complex (87% for the Ca2+ complex - compare 15% for [Ca(atp)]2 and just 7% for [Ca(amp)] (695)). The availability of stability constants both for methylphosphonate and for benzimidazole (a purine model) complexes means that the chelate effect for complexes of (1H-benzimidazol-2-yl-methyl)phosphonate can be discussed without the usual complications, such as the differences between ethane-1,2-diamine and two ammonia or two methylamine ligands and disparities between units (704). [Pg.325]

Syntheses reported for the pentaammine(trifluoromethanesulfonato-O) complexes can be readily adapted for other amine or multidentate amine analogs. Syntheses of coIbalt(III) complexes with 1,2-ethanediamine or A -ethyl-l,2-eth-anediamine ligands have been reported earlier in this series. To exemplify the procedures further, trifluoromethanesulfonato-O complexes of cobalt(III), chro-mium(III), and rhodium(III) with unidentate methylamine ligands based on the readily prepared [M(NH3)5Cl]Cl2 precursors are reported here. The following sections report syntheses of 1,2-ethanediamine complexes of Rh(III) and Irflll) and of Ru(II) and Os(II) diimines with trifluoromethanesulfonato ligands. Such syntheses indicate the diversity of the synthesis technique, and the complexes described are excellent precursors for other compounds. [Pg.280]

According to Eq. (4.21), the bidentate ligand ethylenediamine forms a chelate complex in form of a five-membered ring. In Eq. (4.22), the bidentate ligand is replaced by two monodentate methylamine ligands of approximately the same donor power, meaning that the enthalpy of the Cu—bond formation is approximately the same in the two reactions. [Pg.490]

In an approach to opioid receptor ligands,diazabicyclononanones were prepared in a double Petrenko-Kritschenko reaction. Diester 76, in the presence of methylamine and aryl aldehydes, was converted to piperidone 77. This was immediately resubmitted to the reaction conditions however, in this iteration formaldehyde replaced the aryl aldehyde component. The outcome of this reaction produced 78 which was further investigated for its use in rheumatoid arthritis. [Pg.313]

A palladium catalyst with a less electron-rich ligand, 2,2-dipyridyl-methylamine-based palladium complexes (4.2), is effective for coupling of aryl iodides or bromides with terminal alkynes in the presence of pyrrolidine and tetrabutylammonium acetate (TBAB) at 100°C in water.37 However, the reactions were shown to be faster in NMP solvent than in water under the reaction conditions. Palladium-phosphinous acid (POPd) was also reported as an effective catalyst for the Sonogashira cross-coupling reaction of aryl alkynes with aryl iodides, bromides, or chlorides in water (Eq. 4.18).38... [Pg.109]

A versatile synthesis of monoamine platinum(II) complexes of the type ptCl3(amine)], where the nature of the amine ligand can be varied readily, involves treatment of the iodo-bridged dimer [PtI(/r-I)L]2 (L = NH3, methylamine, ethylamine, isopropylamine, cyclobutylamine, and... [Pg.690]

The dimeric 2,3-dihydro-l,2,4-oxadiazole palladium(n) complex 182 (Equation 27) reacts with aqueous methylamine to liberate the ligand 183 <2003JCD2544>. A similar process has also been applied to platinum(lv)-bound complexes 184, using pyridine to liberate the 2,3-dihydro-l,2,4-oxadiazole <2000JA3106>. Reduction of the platinum(iv) complexes 184 (Equation 28) gives the corresponding platinum(n) complexes 185 <2001IC264>. [Pg.267]

The natural ligand for the amine oxidase activity is not known for certain. While SSAO/VAP-1 will oxidize endogenous molecules such as methylamine and tyramine, the substrates associated with diapedesis are unknown. It has been speculated that leukocyte cell surface lysine residues or amino sugars, such as mannosamine residues (5) known to be associated with cell/cell recognition may be involved [14,15]. [Pg.230]

In contrast, no N=N bond rupture was observed in the case of the methyldiazene ligand (Sch. 20). However, electrochemical reduction of the hydrazido(2—)/isodiazene isomer [Mo2(cp)2(/r-SMe)3(/x-)] —NN(H) Me)]+ 29+ in the presence of acid also afforded 26 and methylamine, showing that the N—N bond had been cleaved... [Pg.584]

A similar approach was taken for the synthesis of 45 by Miyaura. " Shaughnessy and Booth synthesized the water-soluble alkylphosphine 46, and found it to provide very active palladium catalysts for the reaction of aryl bromides or chlorides with boronic acids. The more sterically demanding ligand 47 was shown to promote the reactions of aryl chlorides with better results than 46. Najera and co-workers recently reported on the synthesis of di(2-pyridyl)-methylamine-palladium dichloride complexes 48a and 48b, and their use in the coupling of a variety of electrophiles (aryl bromides or chlorides, allyl chlorides, acetates or carbonates) with alkyl- or arylboronic acids very low catalyst loadings at Palladium-oxime catalysts 8a and 8b) have also been developed. In conjunction with... [Pg.10]

In cases where nitroethane is used instead of methylamine as shown in Eq. (4), the Ni(II) complex of hexaaza macrotricyclic ligand, L2, can be prepared (19). [Pg.100]


See other pages where Methylamine ligand is mentioned: [Pg.1157]    [Pg.79]    [Pg.283]    [Pg.81]    [Pg.297]    [Pg.382]    [Pg.66]    [Pg.283]    [Pg.3737]    [Pg.29]    [Pg.1157]    [Pg.79]    [Pg.283]    [Pg.81]    [Pg.297]    [Pg.382]    [Pg.66]    [Pg.283]    [Pg.3737]    [Pg.29]    [Pg.394]    [Pg.212]    [Pg.61]    [Pg.1438]    [Pg.95]    [Pg.788]    [Pg.1165]    [Pg.1165]    [Pg.16]    [Pg.27]    [Pg.214]    [Pg.222]    [Pg.133]    [Pg.191]    [Pg.172]    [Pg.121]    [Pg.5]    [Pg.81]    [Pg.119]    [Pg.301]    [Pg.502]    [Pg.524]    [Pg.52]    [Pg.224]    [Pg.189]    [Pg.98]    [Pg.803]   
See also in sourсe #XX -- [ Pg.958 ]




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Methylamine

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