Metal complexes of 1,2 quinone monooximes and their applications in organic synthesis

Chakrabarti, Jayatibha

January 1995

Systematic investigations of the reactions of 1,2-quinone monooximes (qoH) with alkali (lithium, sodium and potassium) and alkaline earth metal (magnesium and barium) hydroxides and acetates [M(OH)n or M(OAc)r] have been carried out. In the case of 1,2-naphthaquinone 1-oxime (1-nqoH) and 1,2-naphthaquinone 2-oxime (2- nqoH), all the alkali metals form complexes of types M(qo). nS and M(qo)(qoH)(S) [S = H20 or EtOH]. M(qo). nS arises when a reactant molar ratio [MOH: qoH] of 1: 1 is used whereas M(qo)(qoH)(S) is formed when the ratio is 1: 2 or 1: 3. An analogous behaviour is also observed in the reactions of NaOH and KOH with 5- ethylamino-4-methyl-1,2-benzoquinone 2-oxime (5-Et-4-MeqoH). The reaction of LiOH with 5-Et-4-MeqoH in the ratio of 1: 1 gives Li(go)(qoH)(H20) whereas using molar ratios of 1: 2 and 1: >_ 3 give Li(go)(qoH),. 1' H20. The alkaline earth metals form complexes of type M(go)2.2H20 with 1-nqoH and 5-Et-4-MeqoH. Complexes of type M(Mpo). nS and M(Mpo)(MpoH). S [M = Li, Na, K], M(Mpo)2.2H20 and M(1-Ppo),. 2H; 0 [M = Mg and Ba] result from the reactions of MOH, Ba(OH)2 and Mg(OAc), with 1,3-dimethyl-lH-pyrazole-4,5-dione-4-oxime (MpoH) and 3-methyl- 1-phenyl-lH-pyrazole-4,5-dione-4-oximes (1-PpoH). Structural investigations of the qoH complexes noted above were carried out using spectroscopic, magnetochemical and X-ray crystallographic studies. All the complexes exhibit association as indicated by LSIMS. Their IR spectra indicate the quinone oximic character of the ligands and the involvement of the carbonyl group in the bonding of the ligand to the metal atom. X-ray studies of the lithium and sodium complexes of 5-Et-4-MeqoH show that the ligand chelates to the metal atom through the nitrogen atom of the oxime group and the oxygen atom of the carbonyl group and suggest that its structure can be best described as an intermediate between the quinone oxime and imino oxime form. In the bis-chelates, the metal atom is penta coordinated whereas hexa coordination is shown by Li(go)(qoH)2. IR studies of the complexes ML, [M = Mn, Ni, Cu and Zn; LH = 1-PpoH and MpoH] and their aquo and pyridine adducts indicate that the ligand exists essentially in the oximic form. The lack of reaction between these complexes and triphenylphosphine suggests that the oxygen atom of the NO group is involved in bonding to the metal atom. This feature is confirmed by the X-ray studies of Zn(Mpo)2(H, O)2 and Mn(1-Ppo)2(py)2 which indicate the presence of six-membered chelate rings and octahedral coordination around the metal atom. Magnetic moment determinations of the aquo and pyridine adducts show that the compounds are magnetically dilute and hence monomeric in the solid state. The lowering of magnetic moment observed for anhydrous complexes is accounted for in terms of association. Support for association is also obtained from the LSIM spectra which show dimetallic and trimetallic species in their spectra. The lithium, sodium and barium complexes of 1-ngoH react with dimethyl acetylenedicarboxylate (DMAD) at -75-50° to give the open chain adduct, O-(1', 2'- dicarbomethoxyethenyl)-1,2-naphthaquinone1 -oxime. Open chain adduct formation is also observed in the reactions of pyrazole-4,5-dione-4-oximes or their lithium complexes with DMAD at 0-40°C. At higher temperatures the reactions lead to Schiff Base type condensation products whose formation is accounted mechanistically in terms of the deoxygenation of the oxime group.

547

Organic chemistry

New reactions of hypervalent iodine reagents with nitrogen compounds

Rose, Helen Louise

January 1996

No description available.

547

Organic chemistry

Synthetic approaches to C2-symmetric and axially chiral compounds for recognition and catalysis

Malkin, Hugh

January 1999

No description available.

547

Organic chemistry

The resolution, structure and reactivity of (diene)Fe(CO)←2L and (arene)Cr(CO)←2L complexes

Olivant, Marie-Claire

January 1996

No description available.

547

Organic chemistry

The synthesis of novel nitrogen heterocycles in the field of phthalocyanines and oxazoles

Perry, Martin Harold

January 1996

No description available.

547

Organic chemistry

Investigations of fused 1,2,3-triazin-4-ones and related systems

Woodland, Elaine Denise

January 1992

This thesis describes work carried out on several chemical aspects of fused 1,2,3-triazin-4-ones. In the first section several sUbstituted l,2,3-benzotriazinones were prepared with a view to observing their rate of deazoniation. It ,was envisaged that a kinetic analysis of this reaction would aid the elucidation of the nature of a hitherto controversial reaction intermediate. The rate constants obtained were used to construct Hammett plots and hence calculate the reaction constants. Several pieces of evidence were obtained that suggested the intermediate was of a diradical nature. Unfortunately, this could not be substantiated by Chemically Induced Dynamic Nuclear Polarisation spectroscopy. The second section involved devising a new synthetic route for the preparation of l,2,3-thieno[ 3,4-d]triazinones since the one existing preparation gave polysubstituted products. A simple thienotriazinone was obtained which was used to study the reaction conditions required to cause its deazoniation. It was envisaged that for this reaction to occur, a potentially undesirable sulphurE[intermediate must be surmounted. As anticipated the thieno[3,4-d]triazinone did not deazoniate under the normal conditions.The synthetic route used to prepare the thieno[3,4-d]triazinone also afforded an intermediate aminonitrile. An investigation into the versatility of this compound as a potential precursor to other fused heterocycles was undertaken. Several fused thienopyrimidines were obtained. The final section of this work was dedicated to devising a synthetic route for the preparation of pyrroloand furanotriazinones. Unfortunately these compounds were not obtained due to difficulties of instability and excessive water solubility encountered in the synthesis, several useful intermediates were, however, successfully prepared.

547

Organic chemistry

The analysis of cyclopropenoids using transition metal catalysts

Dine, T. C.

January 1983

No description available.

547

Organic chemistry

The synthesis and study of some novel amphiphilic phthalocyanines

Chambrier, Isabelle

January 1991

The syntheses of phthalocyanines and particularly substituted phthalocyanines, together with some of their main applications, are described. Asymmetrically octasubstituted phthalocyanines, where the substituents on one benzene ring differ from the substituents on the other three rings are most commonly obtained from statistical mixtures of precursors derived from phthalic acid. The synthesis of a series of such compounds together with their substituted phthalonitrile precursors containing both hydrophilic and hydrophobic side-chain substituents is discussed. This novel series of nonperipherally substituted amphiphilic phthalocyanines were shown to possess liquid crystalline properties. The various liquid crystal discotic mesophases were characterised. As a consequence of their hydrophilic-hydrophobic balance and high solubility in organic solvents, the compounds were studied as Langmuir-Blodgett films. The synthesis and Langmuir monolayer behaviour of peripherally octa-t-butylphthalocyanine is also described. The latter part of this thesis includes a discussion of the mechanisms of the synthesis of phthalocyanines from various precursors and particularly from phthalonitrile, which complements the synthetic aspects of the work. The thesis concludes with an investigation into the feasibility of a stepwise conversion of phthalonitrile precursors into the macrocycle for the preparation of asymmetrically substituted phthalocyanines.

547

Organic chemistry

Spectroscopic probe studies of solvation

Eaton, Graham

January 1983

The major part of this thesis concerns the use of relatively simple compounds used in extremely dilute solution to study solvation phenomena. Use of many spectroscopic techniques such as infrared, NMR, ultraviolet, etc., have made it possible to follow the environment of the probe throughout various mixed and pure solvent states. Simple molecules such as acetone, triethylphosphine oxide, small amides, etc., yield similar results concerning the interaction of alcohol-base and water-base systems and also provide information as to the solvation state of the probes themselves. A comparative study of the various solvent scales is included, combining information obtained during the course of this research with the various literature values. The relative merits and demerits of most of the widely-used scales such as Gutmann's Donor and Acceptor numbers, Taft's ? and ? scales, Kosower's Z values and Dimroth's ET values, etc., are discussed in the light of the various solvation parameters obtained. Of particular interest was the formation of 'clathrate hydrate' compounds, already well-established in the literature. A suitable technique was developed and is demonstrated herein for following the formation of the acetone clathrate hydrate using infrared spectroscopy. Its relevance to some theories of water structure and solvation are discussed with suggestions as to acetone's solvation structure in liquid water. A final chapter is included where techniques from the probe studies are utilised in formulating a suggested mechanism for the solvolysis of alkyl halides. These reactions already having been extensively studied by kinetic means previously relied on simple mechanisms which gave adequate mathematical results to the various rate laws. The involvement of hydrogen bonding to the solvent in no way alters the mathematics but is highly relevant to the overall operating mechanism.

547

Organic chemistry

Four-membered metallacyclic complexes of platinum, palladium and nickel

Henderson, William

January 1987

Chapter 1 reviews the literature concerning the principal synthetic routes to metallacyclobutane, metallacyclobutan-3-one (?3-oxodimethyl-enonethane), and four-membered cyclic ylide complexes of platinum, palladium, and nickel, which contain the M-C-X-C ring system (X=C,S, or P). The preparation and characterisation of the first examples of metallathietane-3, 3-dioxide complexes of platinum, palladium, and nickel, [M{CHRS (O) 2CHR}L2], are presented in Chapter 2. The molecular structures of three of these complexes establish the presence of puckered four-membered rings, together with the presence of a hetero-allylic contribution to the bonding. Preliminary investigations into the reactivity of these metallathietane- 3, 3-dioxide complexes are detailed in Chapter 3. Ligand substitution reactions of the complex [Pt{CHPhS(O)2CHPh}(SEt2)2] afford a range of platinathietane-3,3-dioxide complexes. A study of the reactions of platinathietane-3,3-dioxide complexes with alkyl isocyanides shows that phenyl substituted complexes undergo ligand substitution, whereas benzoyl or methoxycarbonyl substituted complexes undergo a ring insertion reaction to afford the zwitterionic complexes [Pt{CH(C0R)S(O)2C(COR)C:- NHR'}(CNR')(L) ]. Chapter 4 describes the synthesis of platinathietane-3-oxide complexes, crystallographic and n.m.r. data indicating the presence of puckered and non-fluxional four-membered ring systems, with the sulphinyl oxygen in an equatorial environment. The sulphoxide and equatorial benzoyl groups of the complex [Pt{CH(COPh)S (O)CH(COPh)} (PPh3)2] co-ordinate to palladium (II) or rhodium (I) centres to afford five-membered chelate ring products. The final Chapter describes the synthesis of diphenyl-substituted oxo- dimethylenemethane (metallacyclobutan-3-one) complexes of platinum and palladium using the dianion K2[PhCHC(O)CHPh]. The molecular structure of the complex [Pt{?3-CHPhC(O)CHPh} (AsPh3)2] establishes the presence of an n3-oxodimethylenemethane ligand. The fluxional behaviour of these diphenyl oxodimethylenemethane complexes is shown to be dependent on the mode of substitution of the phenyl rings on the oxodimethylene methane ligand, with cis-diequatorial complexes being rigid in solution, and the trans-disubstituted complex trans- [Pt{?3 -CHPhC (O) CHPh} (PPh3)2] being fluxional.

547

Organic chemistry