Coordination chemistry is the study of compounds formed between metal ions and other neutral or negatively charged molecules. Coordination chemistry includes areas of inorganic solid state chemistry, organometallic chemistry and bioinorganic chemistry, and applications to analytical chemistry, catalysis, industrial chemistry and materials science.
Coordination chemistry is the study of compounds formed between metal ions and other neutral or negatively charged molecules. Coordination chemistry includes areas of inorganic solid state chemistry, organometallic chemistry and bioinorganic chemistry, as well as applications to analytical chemistry, catalysis, industrial chemistry and materials science.
Preface; The Concept and Use of a Class of Branchy Molecules with Centripetal Self-Similarity; Cytochromes c' Model: Iron (III) Porphyrinates Showing Intermediate-Spin Character; Optimising the Photoreactivity of Chemical Compounds-Necessity, Challenges and Obstacles; Co-ordination Chemistry of [Oxo(salen)chromium(V)]+ Complexes and Their Reactivity; Multiple-Bonded and Aromatic Organotin Compounds; Structural Coordination Chemistry of Small, Dicyanomethanide-Based Ligands; Design of Transition Metal Biotin Complexes as Non-Covalent Probes for Avidin; Ligand-Effects on the Stability, Conformational Preference and Diatrophic Response of 3-Membered Hydrocopper Rings; Research Progress in the Co-ordination Chemistry of Osmium; Magnetostructural D-Correlation for Zero-Field Splitting in Nickel (II) Complexes; Complexation and Antioxidant Activity of Flavonoids with Biologically Relevant Metal Ions; Index.
Coordination chemistry is the study of compounds formed between metal ions and other neutral or negatively charged molecules. Coordination chemistry includes areas of inorganic solid state chemistry, organometallic chemistry and bioinorganic chemistry, as well as applications to analytical chemistry, catalysis, industrial chemistry and materials science