CHEM 3003 Advanced Inorganic Chemistry

This is an archived copy of the 2021-2022 catalog. To access the most recent version of the catalog, please visit https://hbook.westernsydney.edu.au.

Credit Points 10

Legacy Code 300907

Coordinator Feng Li Opens in new window

Description Building on the foundations laid in Inorganic Chemistry, this unit focuses on structure and bonding in inorganic chemistry, and the stereochemistry of coordination complexes. Spectroscopic and magnetic properties of inorganic compounds are evaluated as a consequence of structure and bonding, and an introduction to X-ray methods for structure determination is given. Kinetics and mechanism of inorganic reactions are examined, and the area of bioinorganic chemistry is developed. Unique structures and reactions of organotransition metal chemistry are explored. Advanced Modules cover aqueous chemistry of cations and oxyanions, inorganic materials, molecular orbital theory in coordination complexes, group theory; lanthanides and actinides.

School Science

Discipline Inorganic Chemistry

Student Contribution Band HECS Band 2 10cp

Check your HECS Band contribution amount via the Fees page.

Level Undergraduate Level 3 subject

Pre-requisite(s) CHEM 2004 OR
CHEM 2007 OR
CHEM 2006

Equivalent Subjects LGYB 9729 - Inorganic Chemistry 3 CHEM 3011 - Inorganic Chemistry 3 LGYA 6134 - Advanced Inorganic Chemistry

Learning Outcomes

On successful completion of this subject, students should be able to:
  1. Critically contrast the bonding theories in coordination complexes (valence bond theory, ligand field theory, molecular orbital theory) and assess their strengths
  2. Apply an understanding of kinetics and mechanism to reactions of coordination complexes
  3. Contrast the various functions of metals in bioinorganic chemistry through a study of selected elements
  4. Analyse the impact of stereochemistry of the varied roles of metals in inorganic compounds
  5. Describe the structure and bonding of organo-transition metal complexes and apply this to their role in homogeneous catalytic cycles
  6. Apply the fundamental principles of inorganic chemistry to advanced areas through the Advanced Modules
  7. Research the literature of inorganic chemistry, including chemical databases such as SciFinder
  8. Demonstrate laboratory techniques and conduct advanced experiments, integrating theory with practice, in the inorganic chemistry laboratory
  9. Identify, critique and apply safety requirements in relation to the use of chemical reagents and laboratory equipment

Subject Content

1. Structure and Bonding in Inorganic Chemistry
- The nature of structure and bonding in Coordination and organometallic complexes.
2. Stereochemistry
- The range of stereochemistries adopted by Coordination and organometallic complexes.
3. Kinetics, Mechanism and Redox
- The use of kinetic measurements and other methods in deducing inorganic reaction mechanisms; the mechanism of substitution reactions in complex molecules; the way in which redox reactions may occur.
4. Bioinorganic Chemistry
- The role of transition metals and other main group elements in Biological systems.
5. Characterisation of Inorganic Compounds
- The use of spectroscopic, Magnetic and X-ray methods in characterising inorganic compounds.
6. Organotransition Metal Chemistry
- introduction to organotransition metal Chemistry, homogeneous organotransition metal catalysis, introduction to heterogeneous organotransition metal catalysis
7. Students also select one of Advanced Module A or Advanced Module B.
A) Advanced Module A
i) Aqueous Chemistry of Cations and Metallic Oxyanions
- Lewis acid behaviour of metal ions and the structures of hydrolysed species in solution; speciation
ii) Inorganic Materials Chemistry
- The Synthesis, structure and properties of A range of advanced inorganic materials
B) Advanced Module B
i) Molecular Orbital Theory in Coordination Complexes
- Introduction to Group Theory; the application of MO Theory to coordination complexes
ii) Lanthanides and Actinides
- Structures with high coordination numbers; chemistry of the lanthanides and actinides; applications of lanthanides and actinides

Assessment

The following table summarises the standard assessment tasks for this subject. Please note this is a guide only. Assessment tasks are regularly updated, where there is a difference your Learning Guide takes precedence.

Item Length Percent Threshold Individual/Group Task
Practical Report is approximately six pages long including calculations and diagrams 30 N Individual
Short Answer 10 x questions 10 N Individual
Final Exam 2 hours 60 N Individual

Prescribed Texts

  • Housecroft, C.E. and Sharpe, A.G., 2012, �gInorganic Chemistry�h, 4rd ed, Pearson Prentice-Hall

Teaching Periods

Autumn

Parramatta - Victoria Rd

Day

Subject Contact Feng Li Opens in new window

View timetable Opens in new window