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Course Outline I.Introduction to Transition Metal Complexes. Classical complexes (Jorgenson and Werner) Survey of ligand coordination numbers, geometries.

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Presentation on theme: "Course Outline I.Introduction to Transition Metal Complexes. Classical complexes (Jorgenson and Werner) Survey of ligand coordination numbers, geometries."— Presentation transcript:

1 Course Outline I.Introduction to Transition Metal Complexes. Classical complexes (Jorgenson and Werner) Survey of ligand coordination numbers, geometries and types of ligands Nomenclature Isomerism II.Bonding in Transition Metal Complexes. Electron configuration of transition metals Valence bond theory Crystal field theory Simple Molecular Orbital Theory Electronic Spectra and Magnetism III.Kinetics and Mechanisms of Inorganic Reactions. Stability and lability Substitution reactions IV.Descriptive Chemistry of TMs. V.Organometallic Chemistry 18 e - rule, , and  bonding ligands (synergistic bonding) Metal carbonyls, synthesis, structure, reactions Compounds with delocalized  -conjugated organic ligands. Reactions and catalysis

2 Group 4: Ti, Zr, Hf The discovery of titanium in 1791 is attributed to William Gregor, a Cornish vicar and amateur chemist. He isolated an impure oxide from ilmenite (FeTiO 3 ) by treatment with HCl and H 2 SO 4. Named after the "Titans", (the sons of the Earth goddess in Greek mythology) Ti A silver-white metal, known for its hardness, low density (4.5g cm -3 ) Titanium is the second most abundant transition metal on Earth (6320 ppm) and plays a vital role as a material of construction because of its: Excellent Corrosion Resistance, High Heat Transfer Efficiency Superior Strength-To-Weight Ratio When it's alloyed with 6% aluminum and 4% vanadium, titanium has half the weight of steel and up to four times the strength. Although a biological function in man is not known, it has excellent biocompatibility --that is the ability to be ignored by the human body's immune system--and an extreme resistance to corrosion. Titanium is now the metal of choice for hip and knee replacements. It is used in military aircraft, nuclear submarines, areas where cost is not really a concern. Other applications include: MAC TiBooks, golf clubs, bicycles.

3 Isolation of Ti The most common form of Ti in the terrasphere is TiO 2 This is a white solid often used in paint as well as as a “sunshield”. Kroll allows isolation of Ti. Conversion to TiCl 4 ……..and reduction to Ti with Mg

4 Reactions of Ti Reaction of titanium with air Titanium metal is coated with a passivating oxide layer that usually renders it inactive. (This is similar to Al and Si) However once titanium starts to burn in air it burns with a spectacular white flame to form titanium dioxide, TiO 2 and titanium nitride, TiN. Titanium metal even burns in pure nitrogen to form titanium nitride. Ti (s) + O 2 (g)  TiO 2 (s) 2Ti (s) + N 2 (g)  TiN (s) Reaction of titanium with water Titanium will react with steam and form the dioxide, titanium(IV) oxide, TiO 2, and hydrogen, H 2. Ti (s) + 2H 2 O (g)  TiO 2(s) + 2H 2(g)

5 Reaction of titanium with the halogens Titanium does react with halogens upon warming to form titanium(IV) halides. The reaction with fluorine requires heating to 200°C. Ti(s) + 2F 2(g)  TiF 4(s) [white] Ti(s) + 2Cl 2(g)  TiCl 4(l) [colourless] Ti(s) + 2Br 2(g)  TiBr 4(s) [orange] Ti(s) + 2I 2(g)  TiI 4(s) [dark brown] Reaction of titanium with acids Dilute aqueous hydrofluoric acid, HF, reacts with titanium to form the complex anion [TiF 6 ] 3- together with hydrogen, H 2. 2Ti (s) + 12HF (aq)  2[TiF 6 ] 3- (aq) + 3H 2(g) + 6H + (aq) Titanium metal does not react with mineral acids at ambient temperature but does react with hot hydrochloric acid to form titanium(III) complexes. Reaction of titanium with bases Titanium does not react with bases under normal conditions, even when hot.

6 A dramatic demonstration of a Ti reaction. Ti (s) + KClO 4  TiO 2(s) + KCl (s) + energy

7 A few examples of Ti applications. Hip implants Aircraft Golf Clubs

8 Zirconium The Kroll method is also used for zirconium and involves the reaction of chlorine and carbon upon baddeleyite (ZrO 2 ). Zirconium tetrachloride, ZrCl 4, is separated from the iron trichloride, FeCl 3, by fractional distillation. Finally ZrCl 4 is reduced to metallic zirconium by reduction with magnesium, Mg. Air is excluded so as to prevent contamination of the product with oxygen or nitrogen. ZrO 2 + 2Cl 2 + 2C (900°C)  ZrCl 4 + 2CO ZrCl 4 + 2Mg (1100°C)  2MgCl 2 + Zr Excess magnesium and magnesium chloride are removed from the product with water and hydrochloric acid to leave a zirconium "sponge". This can be melted under helium by electrical heating. Isolation Zirconium is a greyish-white lustrous metal. Finely divided metal can ignite spontaneously in air, at elevated T. (The solid metal is much more difficult to ignite.) The inherent toxicity of zirconium compounds is low. Ores are mined in a number of countries including Australia, Brazil, India, South Africa and the USA.

9 Zr(IV)oxide Cubic Zirconia ZrO 2 MONOCLINIC ZrO 2 The Zr 4+ ion has seven-fold coordination with the oxygen ions. CUBIC ZrO 2 Zirconium oxide forms the core of each crown and provides the cross-link that bridges the gap of missing teeth. Zirconium oxide ceramic primarily stands out due to its high crack resistance.

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