You'll study a set of core topics that are essential to your developing chemistry knowledge, giving you a solid grounding in organic, inorganic and physical chemistry as well as the underpinning mathematics required to develop computational models and analyse complex data sets. 

You'll explore topics like: 

• organic chemistry 
• thermodynamics and equilibrium 
• structure and bonding 
• mathematical skills for chemists

In year 2 you'll continue to learn the core chemistry content, covering more advanced chemical concepts including:  

• reaction mechanisms in organic chemistry 
• advanced practical chemistry 
• mathematical methods in chemistry 

This will be augmented with an increasing focus on computation and programming, including:

• dedicated modules on programming and mathematical modelling
• a practical course that will develop your computation skills and ability to automate experimental procedures

You'll take advanced modules in the core practical and theoretical areas of chemistry such as: 

• Computational modeling of physical and biological systems 
• Pigments and F-block Chemistry 
• Natural Product Chemistry 
• Electrochemistry, Energy Storage, Pollution Control and Fuel Cells 
• Organometallic Chemistry 
• DNA and RNA 
• UV/visible Spectroscopy and Quadrupolar NMR 
• Kinetics of Interface Chemistry (gas/solid, liquid/solid)  

In the advanced practical module you'll undertake research-oriented, open-ended computational experiments which allow you to develop new practical skills, manage your own learning and present your results. 

Advance your knowledge of digital methods and computational modelling in chemistry within a practical context by completing an individual research project of your choice. 

You'll study advanced modules in artificial intelligence and machine learning in chemistry whilst choosing from optional modules that range anywhere from the study of nuclear magnetic resonance spectroscopy to electrochemistry.