Organic and Inorganic Chemistry

Module code: NT3009

In this module, you'll delve back into the world of organic and inorganic chemistry gained during the previous year.

Topics covered

How carbon-carbon bonds can be formed from carbanions and electrophilic molecules and how this chemistry can be used in both the retrosynthetic analysis and the synthesis of organic molecules
The structure and reactivity of amino acids and the application of this chemistry for the synthesis and structure determination of peptides
Important conformations of alicyclic systems (especially 6-membered), their relative stability and their influence on the stereoelectronic requirements of reaction pathways
The electronic structure of aromatic carbocycles and heterocycles and its effect upon reactivity
Proposing effective reaction sequences to synthesise and interconvert aromatic species, many of which are used as pharmaceuticals or in the materials industry
How structure and bonding control the outcome and selectivity of organic reaction, and how these reactions can be rationalised and predicted using mechanisms
The methods of preparation, bonding, relative stability and reactivity of metal carbonyls, -alkyls, -carbenes, -hydrides, alkene, diene, allyl, cyclopentadienyl and benzene complexes
Inorganic reactions regarding the basic reaction types: substitution, oxidative addition, migratory insertion, reductive elimination, salt elimination
Spectroscopic (IR, NMR and Mass Spectrometry) microanalytical data and structural methods when characterising organometallic species
The application of concepts of chemical kinetics to inorganic chemistry
The importance of inorganic chemistry in catalysis and the mechanistic steps in a number of industrially important catalytic cycles