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Full Description
Cyanoximes: Chemistry, Coordination and Organometallic Compounds and their Applications contains vast information about the use of cyanoximes as small molecules ligands in coordination, bioinorganic, and in organometallic chemistry. In addition, it presents the structural chemistry of these compounds and shows their most interesting spectroscopic properties, along with the practical aspects of their chemistry. Methods of syntheses, stereochemistry of cyanoximes ligands, their structures and properties, as well as the most interesting coordination compounds are described, as well as a broad spectrum of practical applications of both cyanoximes and their metal complexes.
These simple, low molecular weight organic molecules represent a series of new excellent ampolydentate ligands for coordination chemistry. Currently, 48 cyanoximes are known, and users will find more than two hundreds cyanoxime complexes synthesized and studied using a variety of different spectroscopic methods and X-ray analysis.
Contents
1. PART 1.
1.1. Oximes: intermediate compounds between amines and nitro-compounds
1.2. Types of oximes
1.3. Currently known and studied cyanoximes
1.3.1. Methods of syntheses of cyanoximes
1.3.2. Selected examples of syntheses of several cyanoximes, their identification and characterization
1.3.3. Crystallographically identified products of side reactions during syntheses of cyanoximes
1.3.4. Chemical modifications of cyanoximes leading to other useful compounds
1.4. Stereochemistry of cyanoximes
1.4.1. Re-isomerization of cyanoximes: thermodynamic aspects.
1.4.2. Co-crystallization of syn-/anti-diastereomers of cyanoximes: structural and spectroscopic evidence
1.5. Deprotonation of cyanoximes and formation of colored anions
1.6. UV-visible spectra of anionic cyanoximes: solvatochromism.
1.7. Solid state structures of ionic salts of cyanoximes
1.8. Formation of unique acid-salts of monoprotic cyanoximes: structural aspects.
1.9. Cyanoxime anions are unique ampolidentate ligands for coordination and organometallic chemistry!
2. PART 2: Werner-type complexes.
2.1. Rationale and motivation for the synthesis of metal-containing cyanoximates.
2.2. Preparation of Werner-type coordination compounds involving oximes.
2.2.1. Selected examples of syntheses of several complexes, their isolation and characterization.
2.3. Structural chemistry of thallium(I) cyanoximates
2.4. Chemistry of lead(II) cyanoximates
2.5. Transition metals cyanoximates
2.5.1. Silver(I) cyanoximates: structures and properties
2.5.2. Complexes of Zn2+, Ni2+, Cu2+, Co3+ and their properties
2.5.3. Intensely colored complexes of Fe2+ and in solid state and solutions
3. PART 3: organometallic cyanoximates.
3.1. Purpose for synthesis and characterization of series of organometallic compounds
3.2. Organotin(IV) cyanoximates
3.3. Organoantimony(V) cyanoximates
3.4. Organotellurium(IV) compounds.
4. PART 4: developed applications and potential usefulness of cyanoximes and their metal complexes.
4.1. Biomedical field.
4.1.1 Halo-aryl-cyanoximes as enzymes inhibitors
4.1.2. Antimicrobial properties of Ni2+ and Cu2+ cyanoximates
4.1.3. Visible light insensitive silver(I) cyanoximates
4.1.4. New non-antibiotic antimicrobial organoantimony(V) compounds
4.1.5. Novel cytotoxic organotin(IV) compounds
4.1.6. In vitro cytotoxic Pd and Pt cyanoximates with minimal side effects in vivo
4.2. Technological areas.
4.2.1 New conducting Pt-based molecular NIR emitters
4.2.2 Catalytic function of some Zn2+cyanoximates
4.2.3 Potentially high-energy compounds of cyanoximates of Ni, Cu and Pb
4.2.4 Visible light insensitive silver(I) cyanoximates
5. Afterward
6. Acknowledgment
