- UCAS course code
- UCAS institution code
This course is available through clearing
MEng Materials Science and Engineering with Corrosion
Year of entry: 2022
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Course unit details:
Functional Materials & Devices
|Unit level||Level 6|
|Teaching period(s)||Semester 1|
|Offered by||Department of Materials|
|Available as a free choice unit?||No|
Functional materials are at the heart of a wide range of consumer and industrial electronic systems, including communications, sensors, control and energy management. The microstructural and compositional variation in these materials has a dramatic impact on their electrical and mechanical properties.
The course unit aims to:
- Explain the principles underlying the operation of oxide-based functional ceramics in the form of bulk, thin-film, particulate and composite materials;
- Discuss the relationships between chemical composition, crystal structure, microstructure and functional properties;
- Identify the material characteristics required for a variety of applications and environments.
- Devise strategies to optimise the performance of functional ceramics. Correlate different types of functional properties with the underlying mechanisms and processing methods.
A greater depth of the learning outcomes will be covered in the following sections:
- Knowledge and understanding
- Intellectual skills
- Practical skills
- Transferable skills and personal qualities
Teaching and learning methods
- Pre-recorded video lectures,
- Live online lectures,
- Formative assessment in the form of online quizzes,
- Recommended textbooks and scientific papers,
- Past exam papers,
- Electronic supporting information (Blackboard).
Knowledge and understanding
- K1: demonstrate an understanding of the composition-structure-property relationships in polycrystalline ferroelectrics.
- K2: describe the main groups of conventional piezoelectric ceramics; identify emerging single-phase and composite materials and their characteristic properties.
- K3: explain how structural phase transformations in ferroelectrics can be exploited in the development of new and improved materials.
- K4: Discuss principles of operation of solid oxide fuel cells and ceramic sensors (Thermistors, Varistors and Gas sensors). In this context, describe the effect of chemical composition, crystal structure and microstructure on their functional properties.
- K5: Apply the above knowledge of fuel cells and ceramic sensors to estimate their basic operational parameters.
- K6: Evaluate factors limiting the performance of a particular fuel cell or ceramic sensor and suggest measures of performance optimisation.
- I1: devise strategies to optimise the performance of functional ceramics with respect to specific applications.
- I2: correlate different types of functional properties with the underlying mechanisms and processing methods.
Transferable skills and personal qualities
- T1: analytical capability
- T2: problem-solving skills
|Written assignment (inc essay)||30%|
Written and verbal
- Electroceramics: Materials, properties, applications, 2nd edition, A. J. Moulson and J.M. Herbert, John Wiley & Sons, Chichester, 2003.
- Electrical properties of materials, 8th edition, L. Solymar and D. Walsh, Oxford University Press, Oxford, 2009.
- Semiconductor devices: Physics and technology, 3rd edition, S. M. Sze and M.-K. Lee, John Wiley & Sons, Chichester, 2012.
|Scheduled activity hours|
|Practical classes & workshops||6|
|Independent study hours|
|David Hall||Unit coordinator|