- UCAS course code
- UCAS institution code
Year of entry: 2022
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Course unit details:
Contemporary Themes in Chemistry
|Unit level||Level 2|
|Teaching period(s)||Semester 1|
|Offered by||Department of Chemistry|
|Available as a free choice unit?||No|
This course unit detail provides the framework for delivery in 21/22 and may be subject to change due to any additional Covid-19 impact. Please see Blackboard / course unit related emails for any further updates
Industrial Biotechnology (Dr. Nick Weise)
- Industrial biotechnology in the chemical industry.
- The need to develop sustainable manufacturing processes based on renewable resources.
- The chemistry of enzymes and enzyme mechanisms
- Introductory molecular biology and biochemical engineering
- Cases studies from the pharmaceutical, materials and fine chemical industries exemplifying the advantages and disadvantages of enzymatic transformations.
Engineering with Chemistry for Advanced Separations (Prof. Peter Budd)
- Introduction to advanced separations in the context of the global goals (www.globalgoals.org) of “clean water”, affordable and clean energy” and “climate action”.
- Introduction to materials for membrane and adsorption processes.
- Clean water: Membrane processes for desalination; adsorption processes for wastewater treatement.
- Affordable and clean energy: Bioethanol and biobutanol; ABE fermentation; processes for product purification.
- Climate action: Carbon dioxide capture; absorption and membrane processes.
Crystalline Microporous Inorganic Materials (Dr. Martin Attfield)
- General introduction to crystalline microporous inorganic materials and their properties
- Microporous materials: Zeolites – synthesis, structure and properties, Newer families of inorganic microporous materials
- Applications & case studies relating to sustainability, energy, environment & manufacturing including: ion-exchange, separations/ adsorption & heterogeneous catalysis.
|Unit title||Unit code||Requirement type||Description|
|Energy and Change||CHEM10212||Pre-Requisite||Compulsory|
|Structure and Reactivity||CHEM10412||Pre-Requisite||Compulsory|
The unit aims to:
- give students an insight into current challenges in chemistry research, pitched at a level based on prior learning up to the end of Y1
- enable students to appreciate the role chemistry plays in tackling societal problems relating to sustainability, energy, environment, manufacturing and healthcare.
On successful completion of the course students should be able to:
- apply basic, introductory understanding of molecular biology and biochemical engineering to unseen biotechnology processes;
- describe and explain enzymatic transformations using core knowledge of organic chemistry, chemical reactivity and mechanism;
- compare and contrast classical chemical routes to pharmaceuticals and other chemicals with newer enzymatic strategies in terms of environmental and sustainability issues;
- discuss the contribution that chemistry can make in tackling global challenges related to clean water, affordable and clean energy, and climate action;
- explain the basic principles of membrane and adsorption technologies;
- discuss materials and processes for desalination, wastewater treatment, biofuel production and purification, and carbon dioxide capture;
- describe the framework chemistry of crystalline microporous inorganic materials using considerations of structure, chemical composition and charge balancing;
- describe the synthesis of crystalline microporous inorganic materials including considerations of chemical species, concentration, temperature and time, and use these factors to predict aspects of the resulting products;
- explain the inherent functionality of, and functionalisation methods for, crystalline microporous inorganic materials, to demonstrate their use in areas of sustainability, energy, environment, manufacturing & health.
Teaching and learning methods
Each topic has nominally 8 sessions (a variable combination of lectures, workshops and examples)
Transferable skills and personal qualities
There will be some short video lectures supporting the course material on Blackboard. There will also be a variety of workshops where students can attempt questions and receive instant feedback. The three academics delivering the material are also available to see students during office hours or after lectures. Pre-examination feedback can be obtained from the three academics delivering the course. Post-examination feedback (able to view marked examination scripts)
There will be some short video lectures supporting the course material on Blackboard. There will also be a variety of workshops where students can attempt questions and receive instant feedback. The three academics delivering the material are also available to see students during office hours or after lectures.
For the Engineering with Chemistry for Advanced Separations course there is no recommended text but the lectures will include pointers to relevant literature.
For the industrial biotechnology course there is no recommended text but the lectures will include pointers to relevant primary literature. For extra reading, the following book is recommended:
Biocatalysis in Organic Synthesis: The Retrosynthesis Approach, Nicholas J Turner, Luke Humphreys
For the Crystalline Microporous Inorganic Materials course
Solid State Chemistry – An Introduction’ - L. Smart & E. Moore, Chapman and Hall, 2nd Ed.
|Scheduled activity hours|
|Assessment written exam||2|
|Independent study hours|
|Martin Attfield||Unit coordinator|