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Fossil fuels have been the primary energy source for society since the Industrial Revolution. They provide the raw material for the manufacture of many everyday products that we take for granted, including pharmaceuticals, food and drink, materials, plastics and personal care.
As the 21st century progresses we need solutions for the manufacture of chemicals that are smarter, more predictable and more sustainable.
Industrial biotechnology is changing how we manufacture chemicals and materials, as well as providing us with a source of renewable energy. It is at the core of sustainable manufacturing processes and an attractive alternative to traditional manufacturing technologies to commercially advance and transform priority industrial sectors yielding more and more viable solutions for our environment in the form of new chemicals, new materials and bioenergy.
This course will cover the key enabling technologies that underpin biotechnology research including enzyme discovery and engineering, systems and synthetic biology and biochemical and process engineering. Much of this material will be delivered through lectures to ensure that you have a solid foundation in these key areas. We will also consider the wider issues involved in sustainable manufacturing including responsible research innovation and bioethics.
In the second part of the course we will look at how these technologies translate into real world applications which benefit society and impact our everyday lives. This will include input from our industry stakeholders and collaborators working in the pharmaceutical, chemicals and biofuels industries.
By the end of this course you will be able to:
1. Understand enzymatic function and catalysis.
2. Explain the technologies and methodologies underpinning systems and synthetic biology.
3. Explain the diversity of synthetic biology application and discuss the different ethical and regulatory/governance challenges involved in this research.
4. Understand the principles and role of bioprocessing and biochemical engineering in industrial biotechnology.
5. Have an informed discussion of the key enabling technologies underpinning research in industrial biotechnology
6. Give examples of industrial biotechnology products and processes and their application in healthcare, agriculture, fine chemicals, energy and the environment.
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ARTU Ranking (Out of 45 UK universities included in their table)
QS World University Rankings- QS Quacquarelli Symonds rankings data– (CC BY-NC-ND 4.0)