The module aims to expand on a basic knowledge of instrumental analysis and provide a more in-depth understanding of the advances in chromatographic and thermal analysis techniques. It will also provide a basic understanding of photocatalytic reactions and sensor fabrication. The module also aims to develop laboratory skills in the organization and accomplishment of set practical tasks.

1. Appraise the recent advances in chromatographic techniques. 
2. Evaluate current methodologies in flow injection analysis and its applications. 
3. Critically gauge the applications of thermal analysis techniques in analytical chemistry.
4. Develop an understanding of photocatalysis and photocatalytic reactions.
5. Assess the recent advances in electrochemical sensors.
6. Develop experimental strategies based upon core module material. 

This module aims to expand on a basic knowledge of recombinant DNA technology and provide a more in-depth understanding of advances in molecular methods. The module also aims to develop laboratory skills in the manipulation of nucleic acids and proteins.

1. Evaluate the role of epigenetics in eukaryotic gene expression.
2. Critically evaluate current methods in molecular biology.
3. Describe the principles and appraise the application of genomics analysis.
4. Demonstrate laboratory skills in manipulation of nucleic acids and proteins.
5. Examine the data produced in laboratory experiments or research papers and critically analyse.

This module will facilitate the learner to understand and appreciate the steps involved in manufacture of economically important products using cellular processes for the food and biotech and therapeutic purposes. industries.

1. Compare and contrast the methods used for the creation of Genetically Modified Organisms (GMOs) and production of heterologous protein products
2. Critique the choice of expression systems used in for the production of recombinant proteins.
3. Describe how natural and modified microorganisms are cultured at industrial scale for the production of commercially important biologics.
4. Describe the design and maintenance of industrial reactors including single use systems.
5. Compare and contrast media types use in bioprocesses and methods used for sterilisation of media and bioreactors.

This module will build on the learner's knowledge of drug action, the basic concepts of drug design and the physiochemical properties of a molecule that are important in therapeutic action. It will demonstrate the important principles of drug delivery and the biological factors that affect these processes and provide a thorough understanding of pharmacodynamics and pharmacokinetics.

1.
Appraise the history of Medicinal Chemistry.

2. Evaluate both the theoretical and empirical methods used in drug design.
3. Critique the impact of drug delivery and drug metabolism on drug design.
4. Develop an advanced knowledge of pharmacodynamics and pharmacokinetics.

To develop research skills to a level that allows a student to design a specific project and write a literature review for that project.

1. Demonstrate an understanding of the stages in the research process.
2. Develop an appropriate hypothesis and design a set of experiments to test this hypothesis.
3. Compile and critically evaluate a significant body of relevant literature.
4. Communicate results of a literature review and project plan.

This module will develop the skills required to safely perform a scientific investigation and to test the hypothesis developed in the Research Project Design module. The module will further develop the communication skills of scientific writing and oral presentation of project work.

1. Compile independent appropriate methodology to test a scientific hypothesis
2. Perform appropriate procedures to examine scientific hypothesis
3. Critically evaluate research findings, perform statistical analysis to analyse research data collected
4. Detail project work in the form of a written report
5. Defend the outcomes of the research project by formal presentation.

This module aims to give the student an understanding of the steps involved in the manufacture of a successful biopharmaceutical product. It also provides an overview of current applications and future prospects in the biopharmaceutical industry.

1. Appraise the steps involved in the drug discovery and drug development process.
2. Outline the applications of regulations and quality approaches to drug development and manufacture.
3. Assess the varied operations involved in the manufacture of a Biopharmaceutical product.
4. Evaluate the future direction of the Biopharmaceutical Industry.
5. Isolate a recombinant protein following genetic manipulation.

This module will enable learner to develop strategies for the isolation and purification of medicinal proteins for both research and industrial applications. It will similarly introduce the concepts and methodologies involved in the development of drug agonists and antagonists from lead peptides and proteins.

1. Critique methods used for disruption of tissues and cells.
2. Formulate strategies for isolation and purification of proteins.
3. Appraise the bioactivities of proteins and relate these to therapeutic potentials.
4. Discuss the principles of structural constraint and protection in relation medicinal peptides.
5. Synthesise a complete strategy for production of synthetic proteins of medicinal significance through problem-based learning methodologies.

The Operation Management and Lean Techniques module will explore the areas of operation management, production planning and process control, focusing on the 'lean' concept and its applications. This module will examine issues related to performance management and how operations can be improved using lean tools and techniques. This module will consider the design and flow of industrial processes and supply chain management.

1. Appraise and discuss the nature of production and performance management.
2. Analyse process layouts and design and associated flow implications.
3. Explain how lean synchronisation and the associated tools can improve operations performance.
4. Develop and analysis production control charts and evaluate factors that affect supply chains.